
#ifndef _CV_INFO_INCLUDED
    #define _CV_INFO_INCLUDED

    #ifndef __INLINE
        #define __INLINE
    #endif 

	#include <pshpack1.h>

    typedef unsigned long CV_uoff32_t;
    typedef long CV_off32_t;
    typedef unsigned short CV_uoff16_t;
    typedef short CV_off16_t;
    typedef unsigned int CV_typ_t;

    #if !defined (CV_ZEROLEN)
        #define CV_ZEROLEN 1 
    #endif 

    #if !defined (FLOAT10)
        //#if defined (_M_ALPHA) ||  \
        //    defined (_M_MRX000) || \
        //    ((_MSC_VER >= 800) &&  \
        //     defined(_M_IX86) &&   \
        //     (_M_IX86 >= 300))
        // above ifdef tests for 32-bit compiler and existence of long double support
        //typedef struct {
        //    char b[10];
        //} FLOAT10;

        //#else
        typedef long double FLOAT10;
        //#endif
        //typedef FLOAT10 REAL10;
    #endif 


    #define CV_SIGNATURE_C6         0L  // Actual signature is >64K
    #define CV_SIGNATURE_C7         1L  // First explicit signature
    #define CV_SIGNATURE_32BIT	2L  // 32 bit signature
    #define CV_SIGNATURE_RESERVED   3L  
        // All signatures from 2 to 64K are reserved

    #define CV_MAXOFFSET   0xffffffff

    /**     CodeView Symbol and Type OMF type information is broken up into two
     *      ranges.  Type indices less than 0x1000 describe type information
     *      that is frequently used.  Type indices above 0x1000 are used to
     *      describe more complex features such as functions, arrays and
     *      structures.
     */




    /**     Primitive types have predefined meaning that is encoded in the
     *      values of the various bit fields in the value.
     *
     *      A CodeView primitive type is defined as:
     *
     *      1 1
     *      1 089  7654  3  210
     *      r mode type  r  sub
     *
     *      Where
     *          mode is the pointer mode
     *          type is a type indicator
     *          sub  is a subtype enumeration
     *          r    is a reserved field
     *
     *      See Microsoft Symbol and Type OMF (Version 4.0) for more
     *      information.
     */


    #define CV_MMASK        0x700   // mode mask
    #define CV_TMASK        0x0f0   // type mask

    #if CC_BIGINT
        // can we use the reserved bit ??
        #define CV_SMASK        0x008   // subtype mask
    #else 
        #define CV_SMASK        0x007   // subtype mask
    #endif 

    #define CV_MSHIFT       8       // primitive mode right shift count
    #define CV_TSHIFT       4       // primitive type right shift count
    #define CV_SSHIFT       0       // primitive subtype right shift count

    // macros to extract primitive mode, type and size

    #define CV_MODE(typ)    (((typ) & CV_MMASK) >> CV_MSHIFT)
    #define CV_TYPE(typ)    (((typ) & CV_TMASK) >> CV_TSHIFT)
    #define CV_SUBT(typ)    (((typ) & CV_SMASK) >> CV_SSHIFT)

    // macros to insert new primitive mode, type and size

    #define CV_NEWMODE(typ, nm)     ((CV_typ_t)(((typ) & ~CV_MMASK) | ((nm) << CV_MSHIFT)))
    #define CV_NEWTYPE(typ, nt)     (((typ) & ~CV_TMASK) | ((nt) << CV_TSHIFT))
    #define CV_NEWSUBT(typ, ns)     (((typ) & ~CV_SMASK) | ((ns) << CV_SSHIFT))



    //     pointer mode enumeration values

    typedef enum CV_prmode_e
    {
        CV_TM_DIRECT = 0,  // mode is not a pointer
        CV_TM_NPTR = 1,  // mode is a near pointer
        CV_TM_FPTR = 2,  // mode is a far pointer
        CV_TM_HPTR = 3,  // mode is a huge pointer
        CV_TM_NPTR32 = 4,  // mode is a 32 bit near pointer
        CV_TM_FPTR32 = 5,  // mode is a 32 bit far pointer
        CV_TM_NPTR64 = 6  // mode is a 64 bit near pointer
        #if CC_BIGINT
            , CV_TM_NPTR128 = 7  // mode is a 128 bit near pointer
        #endif 
    } CV_prmode_e;




    //      type enumeration values


    typedef enum CV_type_e
    {
        CV_SPECIAL = 0x00,  // special type size values
        CV_SIGNED = 0x01,  // signed integral size values
        CV_UNSIGNED = 0x02,  // unsigned integral size values
        CV_BOOLEAN = 0x03,  // Boolean size values
        CV_REAL = 0x04,  // real number size values
        CV_COMPLEX = 0x05,  // complex number size values
        CV_SPECIAL2 = 0x06,  // second set of special types
        CV_INT = 0x07,  // integral (int) values
        CV_IMAGINARY = 0x08, // imaginary types DAL
        CV_CVRESERVED = 0x0f
    } CV_type_e;




    //      subtype enumeration values for CV_SPECIAL


    typedef enum CV_special_e
    {
        CV_SP_NOTYPE = 0x00, CV_SP_ABS = 0x01, CV_SP_SEGMENT = 0x02, CV_SP_VOID
            = 0x03, CV_SP_CURRENCY = 0x04, CV_SP_NBASICSTR = 0x05,
            CV_SP_FBASICSTR = 0x06, CV_SP_NOTTRANS = 0x07
    } CV_special_e;




    //      subtype enumeration values for CV_SPECIAL2


    typedef enum CV_special2_e
    {
        CV_S2_BIT = 0x00, CV_S2_PASCHAR = 0x01  // Pascal CHAR
    } CV_special2_e;





    //      subtype enumeration values for CV_SIGNED, CV_UNSIGNED and CV_BOOLEAN


    typedef enum CV_integral_e
    {
        CV_IN_1BYTE = 0x00, CV_IN_2BYTE = 0x01, CV_IN_4BYTE = 0x02, CV_IN_8BYTE
            = 0x03 
        #if CC_BIGINT
            , CV_IN_16BYTE = 0x04 
        #endif 
    } CV_integral_e;





    //      subtype enumeration values for CV_REAL and CV_COMPLEX


    typedef enum CV_real_e
    {
        CV_RC_REAL32 = 0x00, CV_RC_REAL64 = 0x01, CV_RC_REAL80 = 0x02,
            CV_RC_REAL128 = 0x03, CV_RC_REAL48 = 0x04
    } CV_real_e;




    //      subtype enumeration values for CV_INT (really int)


    typedef enum CV_int_e
    {
        CV_RI_CHAR = 0x00, CV_RI_INT1 = 0x00, CV_RI_WCHAR = 0x01, CV_RI_UINT1 =
            0x01, CV_RI_INT2 = 0x02, CV_RI_UINT2 = 0x03, CV_RI_INT4 = 0x04,
            CV_RI_UINT4 = 0x05, CV_RI_INT8 = 0x06, CV_RI_UINT8 = 0x07 
        #if CC_BIGINT
            , CV_RI_INT16 = 0x08, CV_RI_UINT16 = 0x09 
        #endif 
    } CV_int_e;




    // macros to check the type of a primitive

    #define CV_TYP_IS_DIRECT(typ)   (CV_MODE(typ) == CV_TM_DIRECT)
    #define CV_TYP_IS_PTR(typ)      (CV_MODE(typ) != CV_TM_DIRECT)
    #define CV_TYP_IS_NPTR(typ)     (CV_MODE(typ) == CV_TM_NPTR)
    #define CV_TYP_IS_FPTR(typ)     (CV_MODE(typ) == CV_TM_FPTR)
    #define CV_TYP_IS_HPTR(typ)     (CV_MODE(typ) == CV_TM_HPTR)
    #define CV_TYP_IS_NPTR32(typ)   (CV_MODE(typ) == CV_TM_NPTR32)
    #define CV_TYP_IS_FPTR32(typ)   (CV_MODE(typ) == CV_TM_FPTR32)

    #if CC_BIGINT
        #define CV_TYP_IS_SIGNED(typ)   (((CV_TYPE(typ) == CV_SIGNED)  &&
            CV_TYP_IS_DIRECT(typ)) || \
        (typ == T_INT1) || \
        (typ == T_INT2) || \
        (typ == T_INT4) || \
        (typ == T_INT8) || \
        (typ == T_INT16) || \
        (typ == T_RCHAR))
        #define CV_TYP_IS_UNSIGNED(typ) (((CV_TYPE(typ) == CV_UNSIGNED)  && \
		CV_TYP_IS_DIRECT(typ)) || \
        (typ == T_UINT1) || \
        (typ == T_UINT2) || \
        (typ == T_UINT4) || \
        (typ == T_UINT8) || \
        (typ == T_UINT16))
    #else 
        #define CV_TYP_IS_SIGNED(typ)   (((CV_TYPE(typ) == CV_SIGNED)  && \
		CV_TYP_IS_DIRECT(typ)) || \
        (typ == T_INT1) || \
        (typ == T_INT2) || \
        (typ == T_INT4) || \
        (typ == T_RCHAR))

        #define CV_TYP_IS_UNSIGNED(typ) (((CV_TYPE(typ) == CV_UNSIGNED)  && \
        CV_TYP_IS_DIRECT(typ)) || \
        (typ == T_UINT1) || \
        (typ == T_UINT2) || \
        (typ == T_UINT4))
    #endif 
    #define CV_TYP_IS_REAL(typ)     ((CV_TYPE(typ) == CV_REAL)  && \
        CV_TYP_IS_DIRECT(typ))
    #define CV_TYP_IS_IMAGINARY(typ) ((CV_TYPE(typ) == CV_IMAGINARY)  && \
        CV_TYP_IS_DIRECT(typ))

    #define CV_FIRST_NONPRIM 0x1000
    #define CV_IS_PRIMITIVE(typ)    ((typ) < CV_FIRST_NONPRIM)
    #define CV_TYP_IS_COMPLEX(typ)  ((CV_TYPE(typ) == CV_COMPLEX)   && \
        CV_TYP_IS_DIRECT(typ))



    // selected values for type_index - for a more complete definition, see
    // Microsoft Symbol and Type OMF document




    //      Special Types


    #define T_NOTYPE        0x0000  // uncharacterized type (no type)
    #define T_ABS           0x0001  // absolute symbol
    #define T_SEGMENT       0x0002  // segment type
    #define T_VOID          0x0003  // void
    #define T_PVOID         0x0103  // near pointer to void
    #define T_PFVOID        0x0203  // far pointer to void
    #define T_PHVOID        0x0303  // huge pointer to void
    #define T_32PVOID       0x0403  // 16:32 near pointer to void
    #define T_32PFVOID      0x0503  // 16:32 far pointer to void
    #define T_CURRENCY      0x0004  // BASIC 8 byte currency value
    #define T_NBASICSTR     0x0005  // Near BASIC string
    #define T_FBASICSTR     0x0006  // Far BASIC string
    #define T_NOTTRANS      0x0007  // type not translated by cvpack
    #define T_BIT           0x0060  // bit
    #define T_PASCHAR       0x0061  // Pascal CHAR



    //      Character types


    #define T_CHAR          0x0010  // 8 bit signed
    #define T_UCHAR         0x0020  // 8 bit unsigned
    #define T_PCHAR         0x0110  // near pointer to 8 bit signed
    #define T_PUCHAR        0x0120  // near pointer to 8 bit unsigned
    #define T_PFCHAR        0x0210  // far pointer to 8 bit signed
    #define T_PFUCHAR       0x0220  // far pointer to 8 bit unsigned
    #define T_PHCHAR        0x0310  // huge pointer to 8 bit signed
    #define T_PHUCHAR       0x0320  // huge pointer to 8 bit unsigned
    #define T_32PCHAR       0x0410  // 16:32 near pointer to 8 bit signed
    #define T_32PUCHAR      0x0420  // 16:32 near pointer to 8 bit unsigned
    #define T_32PFCHAR      0x0510  // 16:32 far pointer to 8 bit signed
    #define T_32PFUCHAR     0x0520  // 16:32 far pointer to 8 bit unsigned




    //      really a character types

    #define T_RCHAR         0x0070  // really a char
    #define T_PRCHAR        0x0170  // 16:16 near pointer to a real char
    #define T_PFRCHAR       0x0270  // 16:16 far pointer to a real char
    #define T_PHRCHAR       0x0370  // 16:16 huge pointer to a real char
    #define T_32PRCHAR      0x0470  // 16:32 near pointer to a real char
    #define T_32PFRCHAR     0x0570  // 16:32 far pointer to a real char




    //      really a wide character types

    #define T_WCHAR         0x0071  // wide char
    #define T_PWCHAR        0x0171  // 16:16 near pointer to a wide char
    #define T_PFWCHAR       0x0271  // 16:16 far pointer to a wide char
    #define T_PHWCHAR       0x0371  // 16:16 huge pointer to a wide char
    #define T_32PWCHAR      0x0471  // 16:32 near pointer to a wide char
    #define T_32PFWCHAR     0x0571  // 16:32 far pointer to a wide char


    //      8 bit int types


    #define T_INT1          0x0068  // 8 bit signed int
    #define T_UINT1         0x0069  // 8 bit unsigned int
    #define T_PINT1         0x0168  // near pointer to 8 bit signed int
    #define T_PUINT1        0x0169  // near pointer to 8 bit unsigned int
    #define T_PFINT1        0x0268  // far pointer to 8 bit signed int
    #define T_PFUINT1       0x0269  // far pointer to 8 bit unsigned int
    #define T_PHINT1        0x0368  // huge pointer to 8 bit signed int
    #define T_PHUINT1       0x0369  // huge pointer to 8 bit unsigned int

    #define T_32PINT1       0x0468  // 16:32 near pointer to 8 bit signed int
    #define T_32PUINT1      0x0469  // 16:32 near pointer to 8 bit unsigned int
    #define T_32PFINT1      0x0568  // 16:32 far pointer to 8 bit signed int
    #define T_32PFUINT1     0x0569  // 16:32 far pointer to 8 bit unsigned int


    //      16 bit short types


    #define T_SHORT         0x0011  // 16 bit signed
    #define T_USHORT        0x0021  // 16 bit unsigned
    #define T_PSHORT        0x0111  // near pointer to 16 bit signed
    #define T_PUSHORT       0x0121  // near pointer to 16 bit unsigned
    #define T_PFSHORT       0x0211  // far pointer to 16 bit signed
    #define T_PFUSHORT      0x0221  // far pointer to 16 bit unsigned
    #define T_PHSHORT       0x0311  // huge pointer to 16 bit signed
    #define T_PHUSHORT      0x0321  // huge pointer to 16 bit unsigned

    #define T_32PSHORT      0x0411  // 16:32 near pointer to 16 bit signed
    #define T_32PUSHORT     0x0421  // 16:32 near pointer to 16 bit unsigned
    #define T_32PFSHORT     0x0511  // 16:32 far pointer to 16 bit signed
    #define T_32PFUSHORT    0x0521  // 16:32 far pointer to 16 bit unsigned




    //      16 bit int types


    #define T_INT2          0x0072  // 16 bit signed int
    #define T_UINT2         0x0073  // 16 bit unsigned int
    #define T_PINT2         0x0172  // near pointer to 16 bit signed int
    #define T_PUINT2        0x0173  // near pointer to 16 bit unsigned int
    #define T_PFINT2        0x0272  // far pointer to 16 bit signed int
    #define T_PFUINT2       0x0273  // far pointer to 16 bit unsigned int
    #define T_PHINT2        0x0372  // huge pointer to 16 bit signed int
    #define T_PHUINT2       0x0373  // huge pointer to 16 bit unsigned int

    #define T_32PINT2       0x0472  // 16:32 near pointer to 16 bit signed int
    #define T_32PUINT2      0x0473  // 16:32 near pointer to 16 bit unsigned int
    #define T_32PFINT2      0x0572  // 16:32 far pointer to 16 bit signed int
    #define T_32PFUINT2     0x0573  // 16:32 far pointer to 16 bit unsigned int




    //      32 bit long types


    #define T_LONG          0x0012  // 32 bit signed
    #define T_ULONG         0x0022  // 32 bit unsigned
    #define T_PLONG         0x0112  // near pointer to 32 bit signed
    #define T_PULONG        0x0122  // near pointer to 32 bit unsigned
    #define T_PFLONG        0x0212  // far pointer to 32 bit signed
    #define T_PFULONG       0x0222  // far pointer to 32 bit unsigned
    #define T_PHLONG        0x0312  // huge pointer to 32 bit signed
    #define T_PHULONG       0x0322  // huge pointer to 32 bit unsigned

    #define T_32PLONG       0x0412  // 16:32 near pointer to 32 bit signed
    #define T_32PULONG      0x0422  // 16:32 near pointer to 32 bit unsigned
    #define T_32PFLONG      0x0512  // 16:32 far pointer to 32 bit signed
    #define T_32PFULONG     0x0522  // 16:32 far pointer to 32 bit unsigned




    //      32 bit int types


    #define T_INT4          0x0074  // 32 bit signed int
    #define T_UINT4         0x0075  // 32 bit unsigned int
    #define T_PINT4         0x0174  // near pointer to 32 bit signed int
    #define T_PUINT4        0x0175  // near pointer to 32 bit unsigned int
    #define T_PFINT4        0x0274  // far pointer to 32 bit signed int
    #define T_PFUINT4       0x0275  // far pointer to 32 bit unsigned int
    #define T_PHINT4        0x0374  // huge pointer to 32 bit signed int
    #define T_PHUINT4       0x0375  // huge pointer to 32 bit unsigned int

    #define T_32PINT4       0x0474  // 16:32 near pointer to 32 bit signed int
    #define T_32PUINT4      0x0475  // 16:32 near pointer to 32 bit unsigned int
    #define T_32PFINT4      0x0574  // 16:32 far pointer to 32 bit signed int
    #define T_32PFUINT4     0x0575  // 16:32 far pointer to 32 bit unsigned int




    //      64 bit quad types


    #define T_QUAD          0x0013  // 64 bit signed
    #define T_UQUAD         0x0023  // 64 bit unsigned
    #define T_PQUAD         0x0113  // near pointer to 64 bit signed
    #define T_PUQUAD        0x0123  // near pointer to 64 bit unsigned
    #define T_PFQUAD        0x0213  // far pointer to 64 bit signed
    #define T_PFUQUAD       0x0223  // far pointer to 64 bit unsigned
    #define T_PHQUAD        0x0313  // huge pointer to 64 bit signed
    #define T_PHUQUAD       0x0323  // huge pointer to 64 bit unsigned
    #define T_32PQUAD       0x0413  // 16:32 near pointer to 64 bit signed
    #define T_32PUQUAD      0x0423  // 16:32 near pointer to 64 bit unsigned
    #define T_32PFQUAD      0x0513  // 16:32 far pointer to 64 bit signed
    #define T_32PFUQUAD     0x0523  // 16:32 far pointer to 64 bit unsigned



    //      64 bit int types


    #define T_INT8          0x0076  // 64 bit signed int
    #define T_UINT8         0x0077  // 64 bit unsigned int
    #define T_PINT8         0x0176  // near pointer to 64 bit signed int
    #define T_PUINT8        0x0177  // near pointer to 64 bit unsigned int
    #define T_PFINT8        0x0276  // far pointer to 64 bit signed int
    #define T_PFUINT8       0x0277  // far pointer to 64 bit unsigned int
    #define T_PHINT8        0x0376  // huge pointer to 64 bit signed int
    #define T_PHUINT8       0x0377  // huge pointer to 64 bit unsigned int

    #define T_32PINT8       0x0476  // 16:32 near pointer to 64 bit signed int
    #define T_32PUINT8      0x0477  // 16:32 near pointer to 64 bit unsigned int
    #define T_32PFINT8      0x0576  // 16:32 far pointer to 64 bit signed int
    #define T_32PFUINT8     0x0577  // 16:32 far pointer to 64 bit unsigned int


    #if CC_BIGINT
        //      128 bit octet types


        #define T_OCT           0x0014  // 128 bit signed
        #define T_UOCT          0x0024  // 128 bit unsigned
        #define T_POCT          0x0114  // near pointer to 128 bit signed
        #define T_PUOCT         0x0124  // near pointer to 128 bit unsigned
        #define T_PFOCT         0x0214  // far pointer to 128 bit signed
        #define T_PFUOCT        0x0224  // far pointer to 128 bit unsigned
        #define T_PHOCT         0x0314  // huge pointer to 128 bit signed
        #define T_PHUOCT        0x0324  // huge pointer to 128 bit unsigned

        #define T_32POCT        0x0414  // 16:32 near pointer to 128 bit signed
        #define T_32PUOCT       0x0424  
            // 16:32 near pointer to 128 bit unsigned
        #define T_32PFOCT       0x0514  // 16:32 far pointer to 128 bit signed
        #define T_32PFUOCT      0x0524  // 16:32 far pointer to 128 bit unsigned

        //      128 bit int types


        #define T_INT16         0x0078  // 128 bit signed int
        #define T_UINT16        0x0079  // 128 bit unsigned int
        #define T_PINT16        0x0178  // near pointer to 128 bit signed int
        #define T_PUINT16       0x0179  // near pointer to 128 bit unsigned int
        #define T_PFINT16       0x0278  // far pointer to 128 bit signed int
        #define T_PFUINT16      0x0279  // far pointer to 128 bit unsigned int
        #define T_PHINT16       0x0378  // huge pointer to 128 bit signed int
        #define T_PHUINT16      0x0379  // huge pointer to 128 bit unsigned int

        #define T_32PINT16      0x0478  
            // 16:32 near pointer to 128 bit signed int
        #define T_32PUINT16     0x0479  
            // 16:32 near pointer to 128 bit unsigned int
        #define T_32PFINT16     0x0578  
            // 16:32 far pointer to 128 bit signed int
        #define T_32PFUINT16    0x0579  
            // 16:32 far pointer to 128 bit unsigned int

    #endif 




    //      32 bit real types


    #define T_REAL32        0x0040  // 32 bit real
    #define T_PREAL32       0x0140  // near pointer to 32 bit real
    #define T_PFREAL32      0x0240  // far pointer to 32 bit real
    #define T_PHREAL32      0x0340  // huge pointer to 32 bit real
    #define T_32PREAL32     0x0440  // 16:32 near pointer to 32 bit real
    #define T_32PFREAL32    0x0540  // 16:32 far pointer to 32 bit real

    #define T_IMAGINARY32        0x0080  // 32 bit `
    #define T_PIMAGINARY32       0x0180  // near pointer to 32 bit real
    #define T_PFIMAGINARY32      0x0280  // far pointer to 32 bit real
    #define T_PHIMAGINARY32      0x0380  // huge pointer to 32 bit real
    #define T_32PIMAGINARY32     0x0480  // 16:32 near pointer to 32 bit real
    #define T_32PFREAL32    0x0580  // 16:32 far pointer to 32 bit real


    //      48 bit real types


    #define T_REAL48        0x0044  // 48 bit real
    #define T_PREAL48       0x0144  // near pointer to 48 bit real
    #define T_PFREAL48      0x0244  // far pointer to 48 bit real
    #define T_PHREAL48      0x0344  // huge pointer to 48 bit real
    #define T_32PREAL48     0x0444  // 16:32 near pointer to 48 bit real
    #define T_32PFREAL48    0x0544  // 16:32 far pointer to 48 bit real




    //      64 bit real types


    #define T_REAL64        0x0041  // 64 bit real
    #define T_PREAL64       0x0141  // near pointer to 64 bit real
    #define T_PFREAL64      0x0241  // far pointer to 64 bit real
    #define T_PHREAL64      0x0341  // huge pointer to 64 bit real
    #define T_32PREAL64     0x0441  // 16:32 near pointer to 64 bit real
    #define T_32PFREAL64    0x0541  // 16:32 far pointer to 64 bit real

    #define T_IMAGINARY64        0x0081  // 64 bit real
    #define T_PIMAGINARY64       0x0181  // near pointer to 64 bit real
    #define T_PFIMAGINARY64      0x0281  // far pointer to 64 bit real
    #define T_PHIMAGINARY64      0x0381  // huge pointer to 64 bit real
    #define T_32PIMAGINARY64     0x0481  // 16:32 near pointer to 64 bit real
    #define T_32PFIMAGINARY64    0x0581  // 16:32 far pointer to 64 bit real



    //      80 bit real types


    #define T_REAL80        0x0042  // 80 bit real
    #define T_PREAL80       0x0142  // near pointer to 80 bit real
    #define T_PFREAL80      0x0242  // far pointer to 80 bit real
    #define T_PHREAL80      0x0342  // huge pointer to 80 bit real
    #define T_32PREAL80     0x0442  // 16:32 near pointer to 80 bit real
    #define T_32PFREAL80    0x0542  // 16:32 far pointer to 80 bit real

    #define T_IMAGINARY80        0x0082  // 80 bit real
    #define T_PIMAGINARY80       0x0182  // near pointer to 80 bit real
    #define T_PFIMAGINARY80      0x0282  // far pointer to 80 bit real
    #define T_PHIMAGINARY80      0x0382  // huge pointer to 80 bit real
    #define T_32PIMAGINARY80     0x0482  // 16:32 near pointer to 80 bit real
    #define T_32PFIMAGINARY80    0x0582  // 16:32 far pointer to 80 bit real



    //      128 bit real types


    #define T_REAL128       0x0043  // 128 bit real
    #define T_PREAL128      0x0143  // near pointer to 128 bit real
    #define T_PFREAL128     0x0243  // far pointer to 128 bit real
    #define T_PHREAL128     0x0343  // huge pointer to 128 bit real
    #define T_32PREAL128    0x0443  // 16:32 near pointer to 128 bit real
    #define T_32PFREAL128   0x0543  // 16:32 far pointer to 128 bit real




    //      32 bit complex types


    #define T_CPLX32        0x0050  // 32 bit complex
    #define T_PCPLX32       0x0150  // near pointer to 32 bit complex
    #define T_PFCPLX32      0x0250  // far pointer to 32 bit complex
    #define T_PHCPLX32      0x0350  // huge pointer to 32 bit complex
    #define T_32PCPLX32     0x0450  // 16:32 near pointer to 32 bit complex
    #define T_32PFCPLX32    0x0550  // 16:32 far pointer to 32 bit complex




    //      64 bit complex types


    #define T_CPLX64        0x0051  // 64 bit complex
    #define T_PCPLX64       0x0151  // near pointer to 64 bit complex
    #define T_PFCPLX64      0x0251  // far pointer to 64 bit complex
    #define T_PHCPLX64      0x0351  // huge pointer to 64 bit complex
    #define T_32PCPLX64     0x0451  // 16:32 near pointer to 64 bit complex
    #define T_32PFCPLX64    0x0551  // 16:32 far pointer to 64 bit complex




    //      80 bit complex types


    #define T_CPLX80        0x0052  // 80 bit complex
    #define T_PCPLX80       0x0152  // near pointer to 80 bit complex
    #define T_PFCPLX80      0x0252  // far pointer to 80 bit complex
    #define T_PHCPLX80      0x0352  // huge pointer to 80 bit complex
    #define T_32PCPLX80     0x0452  // 16:32 near pointer to 80 bit complex
    #define T_32PFCPLX80    0x0552  // 16:32 far pointer to 80 bit complex




    //      128 bit complex types


    #define T_CPLX128       0x0053  // 128 bit complex
    #define T_PCPLX128      0x0153  // near pointer to 128 bit complex
    #define T_PFCPLX128     0x0253  // far pointer to 128 bit complex
    #define T_PHCPLX128     0x0353  // huge pointer to 128 bit real
    #define T_32PCPLX128    0x0453  // 16:32 near pointer to 128 bit complex
    #define T_32PFCPLX128   0x0553  // 16:32 far pointer to 128 bit complex




    //      boolean types


    #define T_BOOL08        0x0030  // 8 bit boolean
    #define T_BOOL16        0x0031  // 16 bit boolean
    #define T_BOOL32        0x0032  // 32 bit boolean
    #define T_BOOL64        0x0033  // 64 bit boolean
    #define T_PBOOL08       0x0130  // near pointer to  8 bit boolean
    #define T_PBOOL16       0x0131  // near pointer to 16 bit boolean
    #define T_PBOOL32       0x0132  // near pointer to 32 bit boolean
    #define T_PBOOL64       0x0133  // near pointer to 64 bit boolean
    #define T_PFBOOL08      0x0230  // far pointer to  8 bit boolean
    #define T_PFBOOL16      0x0231  // far pointer to 16 bit boolean
    #define T_PFBOOL32      0x0232  // far pointer to 32 bit boolean
    #define T_PFBOOL64      0x0233  // far pointer to 64 bit boolean
    #define T_PHBOOL08      0x0330  // huge pointer to  8 bit boolean
    #define T_PHBOOL16      0x0331  // huge pointer to 16 bit boolean
    #define T_PHBOOL32      0x0332  // huge pointer to 32 bit boolean
    #define T_PHBOOL64      0x0333  // huge pointer to 64 bit boolean

    #define T_32PBOOL08     0x0430  // 16:32 near pointer to 8 bit boolean
    #define T_32PFBOOL08    0x0530  // 16:32 far pointer to 8 bit boolean
    #define T_32PBOOL16     0x0431  // 16:32 near pointer to 18 bit boolean
    #define T_32PFBOOL16    0x0531  // 16:32 far pointer to 16 bit boolean
    #define T_32PBOOL32     0x0432  // 16:32 near pointer to 32 bit boolean
    #define T_32PFBOOL32    0x0532  // 16:32 far pointer to 32 bit boolean
    #define T_32PBOOL64     0x0433  // 16:32 near pointer to 64 bit boolean
    #define T_32PFBOOL64    0x0533  // 16:32 far pointer to 64 bit boolean


    #define T_NCVPTR        0x01f0  
        // CV Internal type for created near pointers
    #define T_FCVPTR        0x02f0  // CV Internal type for created far pointers
    #define T_HCVPTR        0x03f0  
        // CV Internal type for created huge pointers
    #define T_32NCVPTR      0x04f0  
        // CV Internal type for created near 32-bit pointers
    #define T_32FCVPTR      0x05f0  
        // CV Internal type for created far 32-bit pointers
    #define T_64NCVPTR      0x06f0  
        // CV Internal type for created near 64-bit pointers

    #define CV_IS_INTERNAL_PTR(typ) (CV_IS_PRIMITIVE(typ) && \
    CV_TYPE(typ) == CV_CVRESERVED && \
    CV_TYP_IS_PTR(typ))


    /**     No leaf index can have a value of 0x0000.  The leaf indices are
     *      separated into ranges depending upon the use of the type record.
     *      The second range is for the type records that are directly referenced
     *      in symbols. The first range is for type records that are not
     *      referenced by symbols but instead are referenced by other type
     *      records.  All type records must have a starting leaf index in these
     *      first two ranges.  The third range of leaf indices are used to build
     *      up complex lists such as the field list of a class type record.  No
     *      type record can begin with one of the leaf indices. The fourth ranges
     *      of type indices are used to represent numeric data in a symbol or
     *      type record. These leaf indices are greater than 0x8000.  At the
     *      point that type or symbol processor is expecting a numeric field, the
     *      next two bytes in the type record are examined.  If the value is less
     *      than 0x8000, then the two bytes contain the numeric value. If the
     *      value is greater than 0x8000, then the data follows the leaf index in
     *      a format specified by the leaf index. The final range of leaf indices
     *      are used to force alignment of subfields within a complex type record..
     */



    // leaf indices starting records but referenced from symbol records

    #define LF_VTSHAPE      0x000a
    #define LF_COBOL0       0x000b
    #define LF_COBOL1       0x000c
    #define LF_LABEL        0x000e
    #define LF_NULL         0x000f
    #define LF_NOTTRAN      0x0010
    #define LF_ENDPRECOMP   0x0014  // not referenced from symbol
    #define LF_TYPESERVER   0x0016  // not referenced from symbol

    // leaf indices starting records but referenced only from type records

    #define LF_LIST         0x0203
    #define LF_REFSYM       0x020c

    #define LF_ENUMERATE    0x0403

    #define LF_MODIFIER     0x1001
    #define LF_POINTER      0x1002
    #define LF_ARRAY        0x1003
    #define LF_CLASS        0x1004
    #define LF_STRUCTURE    0x1005
    #define LF_UNION        0x1006
    #define LF_ENUM         0x1007
    #define LF_PROCEDURE    0x1008
    #define LF_MFUNCTION    0x1009
    #define LF_BARRAY       0x100b
    #define LF_DIMARRAY     0x100c
    #define LF_VFTPATH      0x100d
    #define LF_PRECOMP      0x100e  // not referenced from symbol
    #define LF_OEM          0x100f  // oem definable type string

    #define LF_VARARRAY		0x1100	// DAL added this for variably indexed arrays

    #define LF_SKIP         0x1200
    #define LF_ARGLIST      0x1201
    #define LF_DEFARG       0x1202
    #define LF_FIELDLIST    0x1203
    #define LF_DERIVED      0x1204
    #define LF_BITFIELD     0x1205
    #define LF_METHODLIST   0x1206
    #define LF_DIMCONU      0x1207
    #define LF_DIMCONLU     0x1208
    #define LF_DIMVARU      0x1209
    #define LF_DIMVARLU     0x120a

    #define LF_BCLASS       0x1400
    #define LF_VBCLASS      0x1401
    #define LF_IVBCLASS     0x1402
    #define LF_FRIENDFCN    0x1403
    #define LF_INDEX        0x1404
    #define LF_MEMBER       0x1405
    #define LF_STMEMBER     0x1406
    #define LF_METHOD       0x1407
    #define LF_NESTTYPE     0x1408
    #define LF_VFUNCTAB     0x1409
    #define LF_FRIENDCLS    0x140a
    #define LF_ONEMETHOD    0x140b
    #define LF_VFUNCOFF     0x140c
    #define LF_NESTTYPEEX	0x140d
    #define LF_MEMBERMODIFY 0x140e

    #define LF_NUMERIC      0x8000

    #define LF_CHAR         0x8000
    #define LF_SHORT        0x8001
    #define LF_USHORT       0x8002
    #define LF_LONG         0x8003
    #define LF_ULONG        0x8004
    #define LF_REAL32       0x8005
    #define LF_REAL64       0x8006
    #define LF_REAL80       0x8007
    #define LF_REAL128      0x8008
    #define LF_QUADWORD     0x8009
    #define LF_UQUADWORD    0x800a
    #define LF_REAL48       0x800b
    #define LF_COMPLEX32    0x800c
    #define LF_COMPLEX64    0x800d
    #define LF_COMPLEX80    0x800e
    #define LF_COMPLEX128   0x800f
    #define LF_VARSTRING    0x8010

    #if CC_BIGINT
        #define LF_OCTWORD      0x8017
        #define LF_UOCTWORD     0x8018
    #endif 

    #define LF_PAD0         0xf0
    #define LF_PAD1         0xf1
    #define LF_PAD2         0xf2
    #define LF_PAD3         0xf3
    #define LF_PAD4         0xf4
    #define LF_PAD5         0xf5
    #define LF_PAD6         0xf6
    #define LF_PAD7         0xf7
    #define LF_PAD8         0xf8
    #define LF_PAD9         0xf9
    #define LF_PAD10        0xfa
    #define LF_PAD11        0xfb
    #define LF_PAD12        0xfc
    #define LF_PAD13        0xfd
    #define LF_PAD14        0xfe
    #define LF_PAD15        0xff

    // end of leaf indices




    //      Type enum for pointer records
    //      Pointers can be one of the following types


    typedef enum CV_ptrtype_e
    {
        CV_PTR_NEAR = 0x00,  // near pointer
        CV_PTR_FAR = 0x01,  // far pointer
        CV_PTR_HUGE = 0x02,  // huge pointer
        CV_PTR_BASE_SEG = 0x03,  // based on segment
        CV_PTR_BASE_VAL = 0x04,  // based on value of base
        CV_PTR_BASE_SEGVAL = 0x05,  // based on segment value of base
        CV_PTR_BASE_ADDR = 0x06,  // based on address of base
        CV_PTR_BASE_SEGADDR = 0x07,  // based on segment address of base
        CV_PTR_BASE_TYPE = 0x08,  // based on type
        CV_PTR_BASE_SELF = 0x09,  // based on self
        CV_PTR_NEAR32 = 0x0a,  // 16:32 near pointer
        CV_PTR_FAR32 = 0x0b,  // 16:32 far pointer
        CV_PTR_UNUSEDPTR = 0x0c  // first unused pointer type
    } CV_ptrtype_e;





    //      Mode enum for pointers
    //      Pointers can have one of the following modes


    typedef enum CV_ptrmode_e
    {
        CV_PTR_MODE_PTR = 0x00,  // "normal" pointer
        CV_PTR_MODE_REF = 0x01,  // reference
        CV_PTR_MODE_PMEM = 0x02,  // pointer to data member
        CV_PTR_MODE_PMFUNC = 0x03,  // pointer to member function
        CV_PTR_MODE_RESERVED = 0x04  // first unused pointer mode
    } CV_ptrmode_e;




    //      Enumeration for function call type


    typedef enum CV_call_e
    {
        CV_CALL_NEAR_C = 0x00,  // near right to left push, caller pops stack
        CV_CALL_FAR_C = 0x01,  // far right to left push, caller pops stack
        CV_CALL_NEAR_PASCAL = 0x02,  
            // near left to right push, callee pops stack
        CV_CALL_FAR_PASCAL = 0x03,  // far left to right push, callee pops stack
        CV_CALL_NEAR_FAST = 0x04,  
            // near left to right push with regs, callee pops stack
        CV_CALL_FAR_FAST = 0x05,  
            // far left to right push with regs, callee pops stack
        CV_CALL_SKIPPED = 0x06,  // skipped (unused) call index
        CV_CALL_NEAR_STD = 0x07,  // near standard call
        CV_CALL_FAR_STD = 0x08,  // far standard call
        CV_CALL_NEAR_SYS = 0x09,  // near sys call
        CV_CALL_FAR_SYS = 0x0a,  // far sys call
        CV_CALL_THISCALL = 0x0b,  // this call (this passed in register)
        CV_CALL_MIPSCALL = 0x0c,  // Mips call
        CV_CALL_GENERIC = 0x0d,  // Generic call sequence
        CV_CALL_ALPHACALL = 0x0e,  // Alpha call
        CV_CALL_PPCCALL = 0x0f,  // PPC call
        CV_CALL_RESERVED = 0x10  // first unused call enumeration
    } CV_call_e;




    //      Values for the access protection of class attributes


    typedef enum CV_access_e
    {
        CV_private = 1, CV_protected = 2, CV_public = 3
    } CV_access_e;



    //      enumeration for method properties

    typedef enum CV_methodprop_e
    {
        CV_MTvanilla = 0x00, CV_MTvirtual = 0x01, CV_MTstatic = 0x02,
            CV_MTfriend = 0x03, CV_MTintro = 0x04, CV_MTpurevirt = 0x05,
            CV_MTpureintro = 0x06
    } CV_methodprop_e;




    //      enumeration for virtual shape table entries

    typedef enum CV_VTS_desc_e
    {
        CV_VTS_near = 0x00, CV_VTS_far = 0x01, CV_VTS_thin = 0x02, CV_VTS_outer
            = 0x03, CV_VTS_meta = 0x04, CV_VTS_near32 = 0x05, CV_VTS_far32 =
            0x06, CV_VTS_unused = 0x07
    } CV_VTS_desc_e;




    //      enumeration for LF_LABEL address modes

    typedef enum CV_LABEL_TYPE_e
    {
        CV_LABEL_NEAR = 0,  // near return
        CV_LABEL_FAR = 4  // far return
    } CV_LABEL_TYPE_e;



    //      enumeration for LF_MODIFIER values


    typedef struct CV_modifier_t
    {
        unsigned short MOD_const: 1;
        unsigned short MOD_volatile: 1;
        unsigned short MOD_unaligned: 1;
        unsigned short MOD_unused: 13;
    } CV_modifier_t;


    //      bit field structure describing class/struct/union/enum properties

    typedef struct CV_prop_t
    {
        unsigned short packed: 1; // true if structure is packed
        unsigned short ctor: 1; // true if constructors or destructors present
        unsigned short ovlops: 1; // true if overloaded operators present
        unsigned short isnested: 1; // true if this is a nested class
        unsigned short cnested: 1; // true if this class contains nested types
        unsigned short opassign: 1; // true if overloaded assignment (=)
        unsigned short opcast: 1; // true if casting methods
        unsigned short fwdref: 1; // true if forward reference (incomplete defn)
        unsigned short scoped: 1; // scoped definition
        unsigned short reserved: 7;
    } CV_prop_t;




    //      class field attribute

    typedef struct CV_fldattr_t
    {
        unsigned short access: 2; // access protection CV_access_t
        unsigned short mprop: 3; // method properties CV_methodprop_t
        unsigned short pseudo: 1; // compiler generated fcn and does not exist
        unsigned short noinherit: 1; // true if class cannot be inherited
        unsigned short noconstruct: 1; // true if class cannot be constructed
        unsigned short unused: 8; // unused
    } CV_fldattr_t;



    //      Structures to access to the type records


    typedef struct TYPTYPE
    {
        unsigned short len;
        unsigned short leaf;
        unsigned char data[CV_ZEROLEN];
    } TYPTYPE; // general types record


#ifdef XXXXX
    __INLINE char *NextType(char *pType)
    {
        return (pType + ((TYPTYPE*)pType)->len + sizeof(unsigned short));
    }
#endif

    typedef enum CV_PMEMBER
    {
        CV_PDM16_NONVIRT = 0x00,  // 16:16 data no virtual fcn or base
        CV_PDM16_VFCN = 0x01,  // 16:16 data with virtual functions
        CV_PDM16_VBASE = 0x02,  // 16:16 data with virtual bases
        CV_PDM32_NVVFCN = 0x03,  // 16:32 data w/wo virtual functions
        CV_PDM32_VBASE = 0x04,  // 16:32 data with virtual bases

        CV_PMF16_NEARNVSA = 0x05,  
            // 16:16 near method nonvirtual single address point
        CV_PMF16_NEARNVMA = 0x06,  
            // 16:16 near method nonvirtual multiple address points
        CV_PMF16_NEARVBASE = 0x07,  // 16:16 near method virtual bases
        CV_PMF16_FARNVSA = 0x08,  
            // 16:16 far method nonvirtual single address point
        CV_PMF16_FARNVMA = 0x09,  
            // 16:16 far method nonvirtual multiple address points
        CV_PMF16_FARVBASE = 0x0a,  // 16:16 far method virtual bases

        CV_PMF32_NVSA = 0x0b,  // 16:32 method nonvirtual single address point
        CV_PMF32_NVMA = 0x0c,  // 16:32 method nonvirtual multiple address point
        CV_PMF32_VBASE = 0x0d  // 16:32 method virtual bases
    } CV_PMEMBER;



    //      memory representation of pointer to member.  These representations are
    //      indexed by the enumeration above in the LF_POINTER record




    //      representation of a 16:16 pointer to data for a class with no
    //      virtual functions or virtual bases


    struct CV_PDMR16_NONVIRT
    {
        CV_off16_t mdisp; // displacement to data (NULL = -1)
    };




    //      representation of a 16:16 pointer to data for a class with virtual
    //      functions


    struct CV_PMDR16_VFCN
    {
        CV_off16_t mdisp; // displacement to data ( NULL = 0)
    };




    //      representation of a 16:16 pointer to data for a class with
    //      virtual bases


    struct CV_PDMR16_VBASE
    {
        CV_off16_t mdisp; // displacement to data
        CV_off16_t pdisp; // this pointer displacement to vbptr
        CV_off16_t vdisp; // displacement within vbase table
        // NULL = (,,0xffff)
    };




    //      representation of a 16:32 near pointer to data for a class with
    //      or without virtual functions and no virtual bases


    struct CV_PDMR32_NVVFCN
    {
        CV_off32_t mdisp; // displacement to data (NULL = 0x80000000)
    };




    //      representation of a 16:32 near pointer to data for a class
    //      with virtual bases


    struct CV_PDMR32_VBASE
    {
        CV_off32_t mdisp; // displacement to data
        CV_off32_t pdisp; // this pointer displacement
        CV_off32_t vdisp; // vbase table displacement
        // NULL = (,,0xffffffff)
    };




    //      representation of a 16:16 pointer to near member function for a
    //      class with no virtual functions or bases and a single address point


    struct CV_PMFR16_NEARNVSA
    {
        CV_uoff16_t off; // near address of function (NULL = 0)
    };



    //      representation of a 16:16 near pointer to member functions of a
    //      class with no virtual bases and multiple address points


    struct CV_PMFR16_NEARNVMA
    {
        CV_uoff16_t off; // offset of function (NULL = 0,x)
        signed short disp;
    };




    //      representation of a 16:16 near pointer to member function of a
    //      class with virtual bases


    struct CV_PMFR16_NEARVBASE
    {
        CV_uoff16_t off; // offset of function (NULL = 0,x,x,x)
        CV_off16_t mdisp; // displacement to data
        CV_off16_t pdisp; // this pointer displacement
        CV_off16_t vdisp; // vbase table displacement
    };




    //      representation of a 16:16 pointer to far member function for a
    //      class with no virtual bases and a single address point


    struct CV_PMFR16_FARNVSA
    {
        CV_uoff16_t off; // offset of function (NULL = 0:0)
        unsigned short seg; // segment of function
    };




    //      representation of a 16:16 far pointer to member functions of a
    //      class with no virtual bases and multiple address points


    struct CV_PMFR16_FARNVMA
    {
        CV_uoff16_t off; // offset of function (NULL = 0:0,x)
        unsigned short seg;
        signed short disp;
    };




    //      representation of a 16:16 far pointer to member function of a
    //      class with virtual bases


    struct CV_PMFR16_FARVBASE
    {
        CV_uoff16_t off; // offset of function (NULL = 0:0,x,x,x)
        unsigned short seg;
        CV_off16_t mdisp; // displacement to data
        CV_off16_t pdisp; // this pointer displacement
        CV_off16_t vdisp; // vbase table displacement

    };




    //      representation of a 16:32 near pointer to member function for a
    //      class with no virtual bases and a single address point


    struct CV_PMFR32_NVSA
    {
        CV_uoff32_t off; // near address of function (NULL = 0L)
    };




    //      representation of a 16:32 near pointer to member function for a
    //      class with no virtual bases and multiple address points


    struct CV_PMFR32_NVMA
    {
        CV_uoff32_t off; // near address of function (NULL = 0L,x)
        CV_off32_t disp;
    };




    //      representation of a 16:32 near pointer to member function for a
    //      class with virtual bases


    struct CV_PMFR32_VBASE
    {
        CV_uoff32_t off; // near address of function (NULL = 0L,x,x,x)
        CV_off32_t mdisp; // displacement to data
        CV_off32_t pdisp; // this pointer displacement
        CV_off32_t vdisp; // vbase table displacement
    };





    //      Easy leaf - used for generic casting to reference leaf field
    //      of a subfield of a complex list

    typedef struct lfEasy
    {
        unsigned short leaf; // LF_...
    } lfEasy;


    /**     The following type records are basically variant records of the
     *      above structure.  The "unsigned short leaf" of the above structure and
     *      the "unsigned short leaf" of the following type definitions are the same
     *      symbol.  When the OMF record is locked via the MHOMFLock API
     *      call, the address of the "unsigned short leaf" is returned
     */


    //      Type record for LF_MODIFIER


    typedef struct lfModifier
    {
        unsigned short leaf; // LF_MODIFIER
        CV_typ_t type; // modified type
        CV_modifier_t attr; // modifier attribute modifier_t
    } lfModifier;




    //      type record for LF_POINTER

    #ifndef __cplusplus
        typedef struct lfPointer
        {
        #endif 
        struct lfPointerBody
        {
            unsigned short leaf; // LF_POINTER
            CV_typ_t utype; // type index of the underlying type
            struct lfPointerAttr
            {
                unsigned char ptrtype: 5; 
                    // ordinal specifying pointer type (ptrtype-t)
                unsigned char ptrmode: 3; 
                    // ordinal specifying pointer mode (ptrmode_t)
                unsigned char isflat32: 1; // true if 0:32 pointer
                unsigned char isvolatile: 1; // TRUE if volatile pointer
                unsigned char isconst: 1; // TRUE if const pointer
                unsigned char isunaligned: 1; // TRUE if unaligned pointer
                unsigned char unused: 4;
            } attr;
            #if (defined(__cplusplus) || defined(_MSC_VER)) 
                // for C++ and MS compilers that support unnamed unions
            };
        #else 
        }
        u;
    #endif 
    #ifdef __cplusplus
        typedef struct lfPointer: public lfPointerBody
        {
        #endif 
        union
        {
            struct 
            {
                CV_typ_t pmclass; 
                    // index of containing class for pointer to member
                unsigned short pmenum; // enumeration specifying pm format
            } pm;
            unsigned short bseg; // base segment if PTR_BASE_SEG
            unsigned char Sym[1]; 
                // copy of base symbol record (including length)
            struct
            {
                CV_typ_t index; // type index if CV_PTR_BASE_TYPE
                unsigned char name[1]; // name of base type
            } btype;
        }
        pbase;
    }
    lfPointer;




    //      type record for LF_ARRAY


    typedef struct lfArray
    {
        unsigned short leaf; // LF_ARRAY
        CV_typ_t elemtype; // type index of element type
        CV_typ_t idxtype; // type index of indexing type
        unsigned char data[CV_ZEROLEN]; // variable length data specifying
        // size in bytes and name
    } lfArray;




    //      type record for LF_CLASS, LF_STRUCTURE


    typedef struct lfClass
    {
        unsigned short leaf; // LF_CLASS, LF_STRUCT
        unsigned short count; // count of number of elements in class
        CV_prop_t property; // property attribute field (prop_t)
        CV_typ_t field; // type index of LF_FIELD descriptor list
        CV_typ_t derived; // type index of derived from list if not zero
        CV_typ_t vshape; // type index of vshape table for this class
        unsigned char data[CV_ZEROLEN]; 
            // data describing length of structure in
        // bytes and name
    } lfClass;
    typedef lfClass lfStructure;




    //      type record for LF_UNION


    typedef struct lfUnion
    {
        unsigned short leaf; // LF_UNION
        unsigned short count; // count of number of elements in class
        CV_prop_t property; // property attribute field
        CV_typ_t field; // type index of LF_FIELD descriptor list
        unsigned char data[CV_ZEROLEN]; 
            // variable length data describing length of
        // structure and name
    } lfUnion;




    //      type record for LF_ENUM


    typedef struct lfEnum
    {
        unsigned short leaf; // LF_ENUM
        unsigned short count; // count of number of elements in class
        CV_prop_t property; // property attribute field
        CV_typ_t utype; // underlying type of the enum
        CV_typ_t field; // type index of LF_FIELD descriptor list
        unsigned char Name[1]; // length prefixed name of enum
    } lfEnum;




    //      Type record for LF_PROCEDURE


    typedef struct lfProc
    {
        unsigned short leaf; // LF_PROCEDURE
        CV_typ_t rvtype; // type index of return value
        unsigned char calltype; // calling convention (CV_call_t)
        unsigned char reserved; // reserved for future use
        unsigned short parmcount; // number of parameters
        CV_typ_t arglist; // type index of argument list
    } lfProc;



    //      Type record for member function


    typedef struct lfMFunc
    {
        unsigned short leaf; // LF_MFUNCTION
        CV_typ_t rvtype; // type index of return value
        CV_typ_t classtype; // type index of containing class
        CV_typ_t thistype; // type index of this pointer (model specific)
        unsigned char calltype; // calling convention (call_t)
        unsigned char reserved; // reserved for future use
        unsigned short parmcount; // number of parameters
        CV_typ_t arglist; // type index of argument list
        long thisadjust; // this adjuster (long because pad required anyway)
    } lfMFunc;




    //     type record for virtual function table shape


    typedef struct lfVTShape
    {
        unsigned short leaf; // LF_VTSHAPE
        unsigned short count; // number of entries in vfunctable
        unsigned char desc[CV_ZEROLEN]; // 4 bit (CV_VTS_desc) descriptors
    } lfVTShape;




    //      type record for cobol0


    typedef struct lfCobol0
    {
        unsigned short leaf; // LF_COBOL0
        CV_typ_t type; // parent type record index
        unsigned char data[CV_ZEROLEN];
    } lfCobol0;




    //      type record for cobol1


    typedef struct lfCobol1
    {
        unsigned short leaf; // LF_COBOL1
        unsigned char data[CV_ZEROLEN];
    } lfCobol1;




    //      type record for basic array


    typedef struct lfBArray
    {
        unsigned short leaf; // LF_BARRAY
        CV_typ_t utype; // type index of underlying type
    } lfBArray;

    //      type record for assembler labels


    typedef struct lfLabel
    {
        unsigned short leaf; // LF_LABEL
        unsigned short mode; // addressing mode of label
    } lfLabel;



    //      type record for dimensioned arrays


    typedef struct lfDimArray
    {
        unsigned short leaf; // LF_DIMARRAY
        CV_typ_t utype; // underlying type of the array
        CV_typ_t diminfo; // dimension information
        char name[1]; // length prefixed name
    } lfDimArray;



    //      type record describing path to virtual function table


    typedef struct lfVFTPath
    {
        unsigned short leaf; // LF_VFTPATH
        unsigned short count; // count of number of bases in path
        CV_typ_t base[1]; // bases from root to leaf
    } lfVFTPath;


    //      type record describing inclusion of precompiled types


    typedef struct lfPreComp
    {
        unsigned short leaf; // LF_PRECOMP
        unsigned short start; // starting type index included
        unsigned short count; // number of types in inclusion
        unsigned long signature; // signature
        unsigned char name[CV_ZEROLEN]; 
            // length prefixed name of included type file
    } lfPreComp;


    //      type record describing end of precompiled types that can be
    //      included by another file


    typedef struct lfEndPreComp
    {
        unsigned short leaf; // LF_ENDPRECOMP
        unsigned long signature; // signature
    } lfEndPreComp;





    //      type record for OEM definable type strings


    typedef struct lfOEM
    {
        unsigned short leaf; // LF_OEM
        unsigned short cvOEM; // MS assigned OEM identified
        unsigned short recOEM; // OEM assigned type identifier
        unsigned short count; // count of type indices to follow
        CV_typ_t index[CV_ZEROLEN]; // array of type indices followed
        // by OEM defined data
    } lfOEM;

    #define OEM_ODI                 0x0010

    #define OEM_ODI_REC_BASELIST    0x0000


    //      type record describing using of a type server

    typedef struct lfTypeServer
    {
        unsigned short leaf; // LF_TYPESERVER
        unsigned long signature; // signature
        unsigned long age; // age of database used by this module
        unsigned char name[CV_ZEROLEN]; // length prefixed name of PDB
    } lfTypeServer;

    //      description of type records that can be referenced from
    //      type records referenced by symbols



    //      type record for skip record


    typedef struct lfSkip
    {
        unsigned short leaf; // LF_SKIP
        CV_typ_t type; // next valid index
        unsigned char data[CV_ZEROLEN]; // pad data
    } lfSkip;



    //      argument list leaf


    typedef struct lfArgList
    {
        unsigned short leaf; // LF_ARGLIST
        unsigned short count; // number of arguments
        CV_typ_t arg[CV_ZEROLEN]; // number of arguments
    } lfArgList;




    //      derived class list leaf


    typedef struct lfDerived
    {
        unsigned short leaf; // LF_DERIVED
        unsigned short count; // number of arguments
        CV_typ_t drvdcls[CV_ZEROLEN]; // type indices of derived classes
    } lfDerived;




    //      leaf for default arguments


    typedef struct lfDefArg
    {
        unsigned short leaf; // LF_DEFARG
        CV_typ_t type; // type of resulting expression
        unsigned char expr[CV_ZEROLEN]; // length prefixed expression string
    } lfDefArg;



    //      list leaf
    //      This list should no longer be used because the utilities cannot
    //      verify the contents of the list without knowing what type of list
    //      it is.  New specific leaf indices should be used instead.


    typedef struct lfList
    {
        unsigned short leaf; // LF_LIST
        char data[CV_ZEROLEN]; // data format specified by indexing type
    } lfList;




    //      field list leaf
    //      This is the header leaf for a complex list of class and structure
    //      subfields.


    typedef struct lfFieldList
    {
        unsigned short leaf; // LF_FIELDLIST
        char data[CV_ZEROLEN]; // field list sub lists
    } lfFieldList;



    //      type record for non-static methods and friends in overloaded method list

    typedef struct mlMethod
    {
        CV_fldattr_t attr; // method attribute
        CV_typ_t index; // index to type record for procedure
        unsigned long vbaseoff[CV_ZEROLEN]; 
            // offset in vfunctable if intro virtual
    } mlMethod;


    typedef struct lfMethodList
    {
        unsigned short leaf;
        unsigned char mList[CV_ZEROLEN]; // really a mlMethod type
    } lfMethodList;



    //      type record for LF_BITFIELD


    typedef struct lfBitfield
    {
        unsigned short leaf; // LF_BITFIELD
        CV_typ_t type; // type of bitfield
        unsigned char length;
        unsigned char position;
    } lfBitfield;




    //      type record for dimensioned array with constant bounds


    typedef struct lfDimCon
    {
        unsigned short leaf; // LF_DIMCONU or LF_DIMCONLU
        CV_typ_t typ; // type of index
        unsigned short rank; // number of dimensions
        unsigned char dim[CV_ZEROLEN]; // array of dimension information with
        // either upper bounds or lower/upper bound
    } lfDimCon;




    //      type record for dimensioned array with variable bounds


    typedef struct lfDimVar
    {
        unsigned short leaf; // LF_DIMVARU or LF_DIMVARLU
        CV_typ_t typ; // type of index
        unsigned short rank; // number of dimensions
        unsigned char dim[CV_ZEROLEN]; // array of type indices for either
        // variable upper bound or variable
        // lower/upper bound.  The referenced
        // types must be LF_REFSYM or T_VOID
    } lfDimVar;




    //      type record for referenced symbol


    typedef struct lfRefSym
    {
        unsigned short leaf; // LF_REFSYM
        unsigned char Sym[1]; // copy of referenced symbol record
        // (including length)
    } lfRefSym;





    /**     the following are numeric leaves.  They are used to indicate the
     *      size of the following variable length data.  When the numeric
     *      data is a single byte less than 0x8000, then the data is output
     *      directly.  If the data is more the 0x8000 or is a negative value,
     *      then the data is preceeded by the proper index.
     */



    //      signed character leaf

    typedef struct lfChar
    {
        unsigned short leaf; // LF_CHAR
        signed char val; // signed 8-bit value
    } lfChar;




    //      signed short leaf

    typedef struct lfShort
    {
        unsigned short leaf; // LF_SHORT
        short val; // signed 16-bit value
    } lfShort;




    //      unsigned short leaf

    typedef struct lfUShort
    {
        unsigned short leaf; // LF_unsigned short
        unsigned short val; // unsigned 16-bit value
    } lfUShort;




    //      signed long leaf

    typedef struct lfLong
    {
        unsigned short leaf; // LF_LONG
        long val; // signed 32-bit value
    } lfLong;




    //      unsigned long leaf

    typedef struct lfULong
    {
        unsigned short leaf; // LF_ULONG
        unsigned long val; // unsigned 32-bit value
    } lfULong;




    //      signed quad leaf

    typedef struct lfQuad
    {
        unsigned short leaf; // LF_QUAD
        unsigned char val[8]; // signed 64-bit value
    } lfQuad;




    //      unsigned quad leaf

    typedef struct lfUQuad
    {
        unsigned short leaf; // LF_UQUAD
        unsigned char val[8]; // unsigned 64-bit value
    } lfUQuad;


    #if CC_BIGINT

        //      signed int128 leaf

        typedef struct lfOct
        {
            unsigned short leaf; // LF_OCT
            unsigned char val[16]; // signed 128-bit value
        } lfOct;

        //      unsigned int128 leaf

        typedef struct lfUOct
        {
            unsigned short leaf; // LF_UOCT
            unsigned char val[16]; // unsigned 128-bit value
        } lfUOct;

    #endif 



    //      real 32-bit leaf

    typedef struct lfReal32
    {
        unsigned short leaf; // LF_REAL32
        float val; // 32-bit real value
    } lfReal32;




    //      real 48-bit leaf

    typedef struct lfReal48
    {
        unsigned short leaf; // LF_REAL48
        unsigned char val[6]; // 48-bit real value
    } lfReal48;




    //      real 64-bit leaf

    typedef struct lfReal64
    {
        unsigned short leaf; // LF_REAL64
        double val; // 64-bit real value
    } lfReal64;




    //      real 80-bit leaf

    typedef struct lfReal80
    {
        unsigned short leaf; // LF_REAL80
        FLOAT10 val; // real 80-bit value
    } lfReal80;




    //      real 128-bit leaf

    typedef struct lfReal128
    {
        unsigned short leaf; // LF_REAL128
        char val[16]; // real 128-bit value
    } lfReal128;




    //      complex 32-bit leaf

    typedef struct lfCmplx32
    {
        unsigned short leaf; // LF_COMPLEX32
        float val_real; // real component
        float val_imag; // imaginary component
    } lfCmplx32;




    //      complex 64-bit leaf

    typedef struct lfCmplx64
    {
        unsigned short leaf; // LF_COMPLEX64
        double val_real; // real component
        double val_imag; // imaginary component
    } flCmplx64;




    //      complex 80-bit leaf

    typedef struct lfCmplx80
    {
        unsigned short leaf; // LF_COMPLEX80
        FLOAT10 val_real; // real component
        FLOAT10 val_imag; // imaginary component
    } lfCmplx80;




    //      complex 128-bit leaf

    typedef struct lfCmplx128
    {
        unsigned short leaf; // LF_COMPLEX128
        char val_real[16]; // real component
        char val_imag[16]; // imaginary component
    } lfCmplx128;



    //      variable length numeric field

    typedef struct lfVarString
    {
        unsigned short leaf; // LF_VARSTRING
        unsigned short len; // length of value in bytes
        unsigned char value[CV_ZEROLEN]; // value
    } lfVarString;

    //***********************************************************************


    //      index leaf - contains type index of another leaf
    //      a major use of this leaf is to allow the compilers to emit a
    //      long complex list (LF_FIELD) in smaller pieces.

    typedef struct lfIndex
    {
        unsigned short leaf; // LF_INDEX
        unsigned short pad;
        CV_typ_t index; // type index of referenced leaf
    } lfIndex;


    //      subfield record for base class field

    typedef struct lfBClass
    {
        unsigned short leaf; // LF_BCLASS
        CV_fldattr_t attr; // attribute
        CV_typ_t index; // type index of base class
        unsigned char offset[CV_ZEROLEN]; 
            // variable length offset of base within class
    } lfBClass;





    //      subfield record for direct and indirect virtual base class field

    typedef struct lfVBClass
    {
        unsigned short leaf; // LF_VBCLASS | LV_IVBCLASS
        CV_fldattr_t attr; // attribute
        CV_typ_t index; // type index of direct virtual base class
        CV_typ_t vbptr; // type index of virtual base pointer
        unsigned char vbpoff[CV_ZEROLEN]; 
            // virtual base pointer offset from address point
        // followed by virtual base offset from vbtable
    } lfVBClass;





    //      subfield record for friend class


    typedef struct lfFriendCls
    {
        unsigned short leaf; // LF_FRIENDCLS
        CV_typ_t index; // index to type record of friend class
    } lfFriendCls;





    //      subfield record for friend function


    typedef struct lfFriendFcn
    {
        unsigned short leaf; // LF_FRIENDFCN
        CV_typ_t index; // index to type record of friend function
        char Name[1]; // name of friend function
    } lfFriendFcn;



    //      subfield record for non-static data members

    typedef struct lfMember
    {
        unsigned short leaf; // LF_MEMBER
        CV_fldattr_t attr; // attribute mask
        CV_typ_t index; // index of type record for field
        unsigned char offset[CV_ZEROLEN]; 
            // variable length offset of field followed
        // by length prefixed name of field
    } lfMember;



    //      type record for static data members

    typedef struct lfSTMember
    {
        unsigned short leaf; // LF_STMEMBER
        CV_fldattr_t attr; // attribute mask
        CV_typ_t index; // index of type record for field
        char Name[1]; // length prefixed name of field
    } lfSTMember;



    //      subfield record for virtual function table pointer

    typedef struct lfVFuncTab
    {
        unsigned short leaf; // LF_VFUNCTAB
        CV_typ_t type; // type index of pointer
    } lfVFuncTab;



    //      subfield record for virtual function table pointer with offset

    typedef struct lfVFuncOff
    {
        unsigned short leaf; // LF_VFUNCTAB
        unsigned short pad;
        CV_typ_t type; // type index of pointer
        CV_off32_t offset; // offset of virtual function table pointer
    } lfVFuncOff;



    //      subfield record for overloaded method list


    typedef struct lfMethod
    {
        unsigned short leaf; // LF_METHOD
        unsigned short count; // number of occurances of function
        CV_typ_t mList; // index to LF_METHODLIST record
        char Name[1]; // length prefixed name of method
    } lfMethod;



    //      subfield record for nonoverloaded method


    typedef struct lfOneMethod
    {
        unsigned short leaf; // LF_ONEMETHOD
        CV_fldattr_t attr; // method attribute
        CV_typ_t index; // index to type record for procedure
        unsigned long vbaseoff[CV_ZEROLEN]; // offset in vfunctable if
        // intro virtual followed by
        // length prefixed name of method
    } lfOneMethod;


    //              subfield record for enumerate

    typedef struct lfEnumerate
    {
        unsigned short leaf; // LF_ENUMERATE
        CV_fldattr_t attr; // access
        unsigned char value[CV_ZEROLEN]; // variable length value field followed
        // by length prefixed name
    } lfEnumerate;


    //      type record for nested (scoped) type definition

    typedef struct lfNestType
    {
        unsigned short leaf; // LF_NESTTYPE
        CV_typ_t index; // index of nested type definition
        unsigned char Name[1]; // length prefixed type name
    } lfNestType;


    //      type record for pad leaf

    typedef struct lfPad
    {
        unsigned char leaf;
    } SYM_PAD;



    //      Symbol definitions

    typedef enum SYM_ENUM_e
    {
        S_COMPILE = 0x0001,  // Compile flags symbol
        S_SSEARCH = 0x0005,  // Start Search
        S_END = 0x0006,  // Block, procedure, "with" or thunk end
        S_SKIP = 0x0007,  // Reserve symbol space in $$Symbols table
        S_CVRESERVE = 0x0008,  // Reserved symbol for CV internal use
        S_OBJNAME = 0x0009,  // path to object file name
        S_ENDARG = 0x000a,  // end of argument/return list
        S_COBOLUDT = 0x000b,  // special UDT for cobol that does not symbol pack
        S_RETURN = 0x000d,  // return description symbol
        S_ENTRYTHIS = 0x000e,  // description of this pointer on entry

        S_BPREL16 = 0x0100,  // BP-relative
        S_LDATA16 = 0x0101,  // Module-local symbol
        S_GDATA16 = 0x0102,  // Global data symbol
        S_PUB16 = 0x0103,  // a public symbol
        S_LPROC16 = 0x0104,  // Local procedure start
        S_GPROC16 = 0x0105,  // Global procedure start
        S_THUNK16 = 0x0106,  // Thunk Start
        S_BLOCK16 = 0x0107,  // block start
        S_WITH16 = 0x0108,  // with start
        S_LABEL16 = 0x0109,  // code label
        S_CEXMODEL16 = 0x010a,  // change execution model
        S_VFTABLE16 = 0x010b,  // address of virtual function table
        S_REGREL16 = 0x010c,  // register relative address

        S_THUNK32 = 0x0206,  // Thunk Start
        S_BLOCK32 = 0x0207,  // block start
        S_WITH32 = 0x0208,  // with start
        S_LABEL32 = 0x0209,  // code label
        S_CEXMODEL32 = 0x020a,  // change execution model
        S_SLINK32 = 0x020f,  // static link for MIPS EH implementation

        S_LPROCMIPS = 0x0300,  // Local procedure start
        S_GPROCMIPS = 0x0301,  // Global procedure start

        S_PROCREF = 0x0400,  // Reference to a procedure
        S_DATAREF = 0x0401,  // Reference to data
        S_ALIGN = 0x0402,  // Used for page alignment of symbols
        S_LPROCREF = 0x0403,  // Local Reference to a procedure

        S_REGISTER = 0x1001,  // Register variable
        S_CONSTANT = 0x1002,  // constant symbol
        S_UDT = 0x1003,  // User defined type
        S_MANYREG = 0x1005,  // Many registers variable
        S_BPREL32 = 0x1006,  // BP-relative
        S_LDATA32 = 0x1007,  // Module-local symbol
        S_GDATA32 = 0x1008,  // Global data symbol
        S_PUB32 = 0x1009,  // a public symbol (CV internal reserved)
        S_LPROC32 = 0x100a,  // Local procedure start
        S_GPROC32 = 0x100b,  // Global procedure start
        S_VFTABLE32 = 0x100c,  // address of virtual function table
        S_REGREL32 = 0x100d,  // register relative address
        S_LTHREAD32 = 0x100e,  // local thread storage
        S_GTHREAD32 = 0x100f,  // global thread storage
    } SYM_ENUM_e;




    //      enum describing the compile flag source language


    typedef enum CV_CFL_LANG
    {
        CV_CFL_C = 0x00, CV_CFL_CXX = 0x01, CV_CFL_FORTRAN = 0x02, CV_CFL_MASM 
            = 0x03, CV_CFL_PASCAL = 0x04, CV_CFL_BASIC = 0x05, CV_CFL_COBOL =
            0x06
    } CV_CFL_LANG;


    //  enum describing target processor

    typedef enum CV_CPU_TYPE_e
    {
        CV_CFL_8080 = 0x00, CV_CFL_8086 = 0x01, CV_CFL_80286 = 0x02,
            CV_CFL_80386 = 0x03, CV_CFL_80486 = 0x04, CV_CFL_PENTIUM = 0x05,
            CV_CFL_MIPSR4000 = 0x10, CV_CFL_M68000 = 0x20, CV_CFL_M68010 = 0x21,
            CV_CFL_M68020 = 0x22, CV_CFL_M68030 = 0x23, CV_CFL_M68040 = 0x24,
            CV_CFL_ALPHA = 0x30, CV_CFL_PPC601 = 0x40, CV_CFL_PPC603 = 0x41,
            CV_CFL_PPC604 = 0x42, CV_CFL_PPC620 = 0x43
    } CV_CPU_TYPE_e;




    //  enum describing compile flag ambiant data model


    typedef enum CV_CFL_DATA
    {
        CV_CFL_DNEAR = 0x00, CV_CFL_DFAR = 0x01, CV_CFL_DHUGE = 0x02
    } CV_CFL_DATA;




    //  enum describing compile flag ambiant code model


    typedef enum CV_CFL_CODE_e
    {
        CV_CFL_CNEAR = 0x00, CV_CFL_CFAR = 0x01, CV_CFL_CHUGE = 0x02
    } CV_CFL_CODE_e;




    //  enum describing compile flag target floating point package

    typedef enum CV_CFL_FPKG_e
    {
        CV_CFL_NDP = 0x00, CV_CFL_EMU = 0x01, CV_CFL_ALT = 0x02
    } CV_CFL_FPKG_e;


    // enum describing function return method


    typedef struct CV_PROCFLAGS
    {
        union
        {
            unsigned char bAll;
            struct 
            {
                unsigned char CV_PFLAG_FPO: 1; // frame pointer omitted
                unsigned char CV_PFLAG_INT: 1; // interrupt return
                unsigned char CV_PFLAG_FAR: 1; // far return
                unsigned char CV_PFLAG_NEVER: 1; // function does not return
                unsigned char unused: 4; //
            } x;
        } z;
    }
    CV_PROCFLAGS;


    // enum describing function data return method

    typedef enum CV_GENERIC_STYLE_e
    {
        CV_GENERIC_VOID = 0x00,  // void return type
        CV_GENERIC_REG = 0x01,  // return data is in registers
        CV_GENERIC_ICAN = 0x02,  // indirect caller allocated near
        CV_GENERIC_ICAF = 0x03,  // indirect caller allocated far
        CV_GENERIC_IRAN = 0x04,  // indirect returnee allocated near
        CV_GENERIC_IRAF = 0x05,  // indirect returnee allocated far
        CV_GENERIC_UNUSED = 0x06  // first unused
    } CV_GENERIC_STYLE_e;
    typedef unsigned char CV_GENERIC_STYLE;

    typedef struct CV_GENERIC_FLAG
    {
        unsigned short cstyle: 1; // true push varargs right to left
        unsigned short rsclean: 1; // true if returnee stack cleanup
        unsigned short unused: 14; // unused
    } CV_GENERIC_FLAG;


    typedef struct SYMTYPE
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // Record type
        char data[CV_ZEROLEN];
    } SYMTYPE;

#ifdef XXXXX
    __INLINE SYMTYPE *NextSym(SYMTYPE *pSym)
    {
        return (SYMTYPE*)((char*)pSym + pSym->reclen + sizeof(unsigned short));
    }
#endif

    //              non-model specific symbol types



    typedef struct REGSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_REGISTER
        CV_typ_t typind; // Type index
        unsigned short reg; // register enumerate
        unsigned char name[1]; // Length-prefixed name
    } REGSYM;



    typedef struct MANYREGSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_MANYREG
        CV_typ_t typind; // Type index
        unsigned char count; // count of number of registers
        unsigned char reg[1]; // count register enumerates followed by
        // length-prefixed name.  Registers are
        // most significant first.
    } MANYREGSYM;



    typedef struct CONSTSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_CONSTANT
        CV_typ_t typind; // Type index (containing enum if enumerate)
        unsigned short value; // numeric leaf containing value
        unsigned char name[CV_ZEROLEN]; // Length-prefixed name
    } CONSTSYM;

    typedef struct UDTSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_UDT | S_COBOLUDT
        CV_typ_t typind; // Type index
        unsigned char name[1]; // Length-prefixed name
    } UDTSYM;

    typedef struct SEARCHSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_SSEARCH
        unsigned long startsym; // offset of the procedure
        unsigned short seg; // segment of symbol
    } SEARCHSYM;

    typedef struct CFLAGSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_COMPILE
        unsigned char machine; // target processor
        struct 
        {
            unsigned char language: 8; // language index
            unsigned char pcode: 1; // true if pcode present
            unsigned char floatprec: 2; // floating precision
            unsigned char floatpkg: 2; // float package
            unsigned char ambdata: 3; // ambiant data model
            unsigned char ambcode: 3; // ambiant code model
            unsigned char mode32: 1; // true if compiled 32 bit mode
            unsigned char pad: 4; // reserved
        } flags;
        unsigned char ver[1]; // Length-prefixed compiler version string
    }
    CFLAGSYM;





    typedef struct OBJNAMESYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_OBJNAME
        unsigned long signature; // signature
        unsigned char name[1]; // Length-prefixed name
    } OBJNAMESYM;




    typedef struct ENDARGSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_ENDARG
    } ENDARGSYM;


    typedef struct RETURNSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_RETURN
        CV_GENERIC_FLAG flags; // flags
        CV_GENERIC_STYLE style; // return style
        // followed by return method data
    } RETURNSYM;


    typedef struct ENTRYTHISSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_ENTRYTHIS
        unsigned char thissym; // symbol describing this pointer on entry
    } ENTRYTHISSYM;


    //  symbol types for 16:16 memory model


    typedef struct BPRELSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_BPREL16
        CV_off16_t off; // BP-relative offset
        CV_typ_t typind; // Type index
        unsigned char name[1]; // Length-prefixed name
    } BPRELSYM16;



    typedef struct DATASYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_LDATA or S_GDATA
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        CV_typ_t typind; // Type index
        unsigned char name[1]; // Length-prefixed name
    } DATASYM16;
    typedef DATASYM16 PUBSYM16;


    typedef struct PROCSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_GPROC16 or S_LPROC16
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
        unsigned short len; // Proc length
        unsigned short DbgStart; // Debug start offset
        unsigned short DbgEnd; // Debug end offset
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        CV_typ_t typind; // Type index
        CV_PROCFLAGS flags; // Proc flags
        unsigned char name[1]; // Length-prefixed name
    } PROCSYM16;




    typedef struct THUNKSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_THUNK
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        unsigned short len; // length of thunk
        unsigned char ord; // ordinal specifying type of thunk
        unsigned char name[1]; // name of thunk
        unsigned char variant[CV_ZEROLEN]; // variant portion of thunk
    } THUNKSYM16;

    typedef enum
    {
        THUNK_ORDINAL_NOTYPE, THUNK_ORDINAL_ADJUSTOR, THUNK_ORDINAL_VCALL,
            THUNK_ORDINAL_PCODE
    } THUNK_ORDINAL;

    typedef struct LABELSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_LABEL16
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        CV_PROCFLAGS flags; // flags
        unsigned char name[1]; // Length-prefixed name
    } LABELSYM16;

    typedef struct BLOCKSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_BLOCK16
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned short len; // Block length
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        unsigned char name[1]; // Length-prefixed name
    } BLOCKSYM16;

    typedef struct WITHSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_WITH16
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned short len; // Block length
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        unsigned char expr[1]; // Length-prefixed expression
    } WITHSYM16;




    typedef enum CEXM_MODEL_e
    {
        CEXM_MDL_table = 0x00,  // not executable
        CEXM_MDL_jumptable = 0x01,  // Compiler generated jump table
        CEXM_MDL_datapad = 0x02,  // Data padding for alignment
        CEXM_MDL_native = 0x20,  // native (actually not-pcode)
        CEXM_MDL_cobol = 0x21,  // cobol
        CEXM_MDL_codepad = 0x22,  // Code padding for alignment
        CEXM_MDL_code = 0x23,  // code
        CEXM_MDL_pcode = 0x40,  // pcode
        CEXM_MDL_pcode32Mac = 0x41,  // macintosh 32 bit pcode
        CEXM_MDL_pcode32MacNep = 0x42  
            // macintosh 32 bit pcode native entry point
    } CEXM_MODEL_e;

    typedef enum CV_COBOL_e
    {
        CV_COBOL_dontstop, CV_COBOL_pfm, CV_COBOL_false, CV_COBOL_extcall
    } CV_COBOL_e;

    typedef struct CEXMSYM16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_CEXMODEL16
        CV_uoff16_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        unsigned short model; // execution model
        union var16
        {
            struct 
            {
                CV_uoff16_t pcdtable; // offset to pcode function table
                CV_uoff16_t pcdspi; // offset to segment pcode information
            } pcode;
            struct
            {
                unsigned short subtype; // see CV_COBOL_e above
                unsigned short flag;
            } cobol;
        } z;
    }
    CEXMSYM16;




    typedef struct VPATHSYM16
    {
        unsigned short reclen; // record length
        unsigned short rectyp; // S_VFTPATH16
        CV_uoff16_t off; // offset of virtual function table
        unsigned short seg; // segment of virtual function table
        CV_typ_t root; // type index of the root of path
        CV_typ_t path; // type index of the path record
    } VPATHSYM16;




    typedef struct REGREL16
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_REGREL16
        CV_uoff16_t off; // offset of symbol
        unsigned short reg; // register index
        CV_typ_t typind; // Type index
        unsigned char name[1]; // Length-prefixed name
    } REGREL16;


    typedef struct BPRELSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_BPREL32
        CV_off32_t off; // BP-relative offset
        CV_typ_t typind; // Type index
        unsigned char name[1]; // Length-prefixed name
    } BPRELSYM32;

    typedef struct DATASYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_LDATA32, S_GDATA32 or S_PUB32
        CV_typ_t typind; // Type index
        CV_uoff32_t off;
        unsigned short seg;
        unsigned char name[1]; // Length-prefixed name
    } DATASYM32;
    typedef DATASYM32 PUBSYM32;



    typedef struct PROCSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_GPROC32 or S_LPROC32
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
        unsigned long len; // Proc length
        unsigned long DbgStart; // Debug start offset
        unsigned long DbgEnd; // Debug end offset
        CV_typ_t typind; // Type index
        CV_uoff32_t off;
        unsigned short seg;
        CV_PROCFLAGS flags; // Proc flags
        unsigned char name[1]; // Length-prefixed name
    } PROCSYM32;




    typedef struct THUNKSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_THUNK32
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
        CV_uoff32_t off;
        unsigned short seg;
        unsigned short len; // length of thunk
        unsigned char ord; // ordinal specifying type of thunk
        unsigned char name[1]; // Length-prefixed name
        unsigned char variant[CV_ZEROLEN]; // variant portion of thunk
    } THUNKSYM32;




    typedef struct LABELSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_LABEL32
        CV_uoff32_t off;
        unsigned short seg;
        CV_PROCFLAGS flags; // flags
        unsigned char name[1]; // Length-prefixed name
    } LABELSYM32;


    typedef struct BLOCKSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_BLOCK32
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long len; // Block length
        CV_uoff32_t off; // Offset in code segment
        unsigned short seg; // segment of label
        unsigned char name[1]; // Length-prefixed name
    } BLOCKSYM32;


    typedef struct WITHSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_WITH32
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long len; // Block length
        CV_uoff32_t off; // Offset in code segment
        unsigned short seg; // segment of label
        unsigned char expr[1]; // Length-prefixed expression string
    } WITHSYM32;



    typedef struct CEXMSYM32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_CEXMODEL32
        CV_uoff32_t off; // offset of symbol
        unsigned short seg; // segment of symbol
        unsigned short model; // execution model
        union var32
        {
            struct 
            {
                CV_uoff32_t pcdtable; // offset to pcode function table
                CV_uoff32_t pcdspi; // offset to segment pcode information
            } pcode;
            struct
            {
                unsigned short subtype; // see CV_COBOL_e above
                unsigned short flag;
            } cobol;
            struct
            {
                CV_uoff32_t calltableOff; // offset to function table
                unsigned short calltableSeg; // segment of function table
            } pcode32Mac;
        } z;
    }
    CEXMSYM32;



    typedef struct VPATHSYM32
    {
        unsigned short reclen; // record length
        unsigned short rectyp; // S_VFTPATH32
        CV_typ_t root; // type index of the root of path
        CV_typ_t path; // type index of the path record
        CV_uoff32_t off; // offset of virtual function table
        unsigned short seg; // segment of virtual function table
    } VPATHSYM32;





    typedef struct REGREL32
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_REGREL32
        CV_uoff32_t off; // offset of symbol
        CV_typ_t typind; // Type index
        unsigned short reg; // register index for symbol
        unsigned char name[1]; // Length-prefixed name
    } REGREL32,  *LPREGREL32;



    typedef struct THREADSYM32
    {
        unsigned short reclen; // record length
        unsigned short rectyp; // S_LTHREAD32 | S_GTHREAD32
        CV_typ_t typind; // type index
        CV_uoff32_t off; // offset into thread storage
        unsigned short seg; // segment of thread storage
        unsigned char name[1]; // length prefixed name
    } THREADSYM32;

    typedef struct SLINK32
    {
        unsigned short reclen; // record length
        unsigned short rectyp; // S_SLINK32
        unsigned long framesize; // frame size of parent procedure
        CV_off32_t off; 
            // signed offset where the static link was saved relative to the value of reg
        unsigned short reg;
    } SLINK32,  *LPSLINK32;

    typedef struct PROCSYMMIPS
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_GPROCMIPS or S_LPROCMIPS
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
        unsigned long len; // Proc length
        unsigned long DbgStart; // Debug start offset
        unsigned long DbgEnd; // Debug end offset
        unsigned long regSave; // int register save mask
        unsigned long fpSave; // fp register save mask
        CV_uoff32_t intOff; // int register save offset
        CV_uoff32_t fpOff; // fp register save offset
        CV_uoff32_t off; // Symbol offset
        unsigned short seg; // Symbol segment
        CV_typ_t typind; // Type index
        unsigned char retReg; // Register return value is in
        unsigned char frameReg; // Frame pointer register
        unsigned char name[1]; // Length-prefixed name
    } PROCSYMMIPS,  *PROCPTRMIPS;


    typedef struct REFSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_PROCREF or S_DATAREF
        unsigned long sumName; // SUC of the name
        unsigned long ibSym; // Offset of actual symbol in $$Symbols
        unsigned short imod; // Module containing the actual symbol
        unsigned short usFill; // align this record
    } REFSYM;

    typedef struct ALIGNSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_PROCREF or S_DATAREF
    } ALIGNSYM;

    //  generic block definition symbols
    //  these are similar to the equivalent 16:16 or 16:32 symbols but
    //  only define the length, type and linkage fields

    typedef struct PROCSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_GPROC16 or S_LPROC16
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
    } PROCSYM;


    typedef struct THUNKSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_THUNK
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
        unsigned long pNext; // pointer to next symbol
    } THUNKSYM;

    typedef struct BLOCKSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_BLOCK16
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
    } BLOCKSYM;


    typedef struct WITHSYM
    {
        unsigned short reclen; // Record length
        unsigned short rectyp; // S_WITH16
        unsigned long pParent; // pointer to the parent
        unsigned long pEnd; // pointer to this blocks end
    } WITHSYM;


    typedef enum CV_HREG_e
    {
        //  Register set for the Intel 80x86 and ix86 processor series
        //  (plus PCODE registers)

        CV_REG_NONE = 0, CV_REG_AL = 1, CV_REG_CL = 2, CV_REG_DL = 3, CV_REG_BL
            = 4, CV_REG_AH = 5, CV_REG_CH = 6, CV_REG_DH = 7, CV_REG_BH = 8,
            CV_REG_AX = 9, CV_REG_CX = 10, CV_REG_DX = 11, CV_REG_BX = 12,
            CV_REG_SP = 13, CV_REG_BP = 14, CV_REG_SI = 15, CV_REG_DI = 16,
            CV_REG_EAX = 17, CV_REG_ECX = 18, CV_REG_EDX = 19, CV_REG_EBX = 20,
            CV_REG_ESP = 21, CV_REG_EBP = 22, CV_REG_ESI = 23, CV_REG_EDI = 24,
            CV_REG_ES = 25, CV_REG_CS = 26, CV_REG_SS = 27, CV_REG_DS = 28,
            CV_REG_FS = 29, CV_REG_GS = 30, CV_REG_IP = 31, CV_REG_FLAGS = 32,
            CV_REG_EIP = 33, CV_REG_EFLAGS = 34, CV_REG_TEMP = 40,  
            // PCODE Temp
        CV_REG_TEMPH = 41,  // PCODE TempH
        CV_REG_QUOTE = 42,  // PCODE Quote
        CV_REG_PCDR3 = 43,  // PCODE reserved
        CV_REG_PCDR4 = 44,  // PCODE reserved
        CV_REG_PCDR5 = 45,  // PCODE reserved
        CV_REG_PCDR6 = 46,  // PCODE reserved
        CV_REG_PCDR7 = 47,  // PCODE reserved
        CV_REG_CR0 = 80,  // CR0 -- control registers
        CV_REG_CR1 = 81, CV_REG_CR2 = 82, CV_REG_CR3 = 83, CV_REG_CR4 = 84,  
            // Pentium
        CV_REG_DR0 = 90,  // Debug register
        CV_REG_DR1 = 91, CV_REG_DR2 = 92, CV_REG_DR3 = 93, CV_REG_DR4 = 94,
            CV_REG_DR5 = 95, CV_REG_DR6 = 96, CV_REG_DR7 = 97, CV_REG_GDTR =
            110, CV_REG_GDTL = 111, CV_REG_IDTR = 112, CV_REG_IDTL = 113,
            CV_REG_LDTR = 114, CV_REG_TR = 115, 

        CV_REG_PSEUDO1 = 116, CV_REG_PSEUDO2 = 117, CV_REG_PSEUDO3 = 118,
            CV_REG_PSEUDO4 = 119, CV_REG_PSEUDO5 = 120, CV_REG_PSEUDO6 = 121,
            CV_REG_PSEUDO7 = 122, CV_REG_PSEUDO8 = 123, CV_REG_PSEUDO9 = 124, 

        CV_REG_ST0 = 128, CV_REG_ST1 = 129, CV_REG_ST2 = 130, CV_REG_ST3 = 131,
            CV_REG_ST4 = 132, CV_REG_ST5 = 133, CV_REG_ST6 = 134, CV_REG_ST7 =
            135, CV_REG_CTRL = 136, CV_REG_STAT = 137, CV_REG_TAG = 138,
            CV_REG_FPIP = 139, CV_REG_FPCS = 140, CV_REG_FPDO = 141,
            CV_REG_FPDS = 142, CV_REG_ISEM = 143, CV_REG_FPEIP = 144,
            CV_REG_FPEDO = 145, 

        // registers for the 68K processors

        CV_R68_D0 = 0, CV_R68_D1 = 1, CV_R68_D2 = 2, CV_R68_D3 = 3, CV_R68_D4 =
            4, CV_R68_D5 = 5, CV_R68_D6 = 6, CV_R68_D7 = 7, CV_R68_A0 = 8,
            CV_R68_A1 = 9, CV_R68_A2 = 10, CV_R68_A3 = 11, CV_R68_A4 = 12,
            CV_R68_A5 = 13, CV_R68_A6 = 14, CV_R68_A7 = 15, CV_R68_CCR = 16,
            CV_R68_SR = 17, CV_R68_USP = 18, CV_R68_MSP = 19, CV_R68_SFC = 20,
            CV_R68_DFC = 21, CV_R68_CACR = 22, CV_R68_VBR = 23, CV_R68_CAAR =
            24, CV_R68_ISP = 25, CV_R68_PC = 26, 
        //reserved          27
        CV_R68_FPCR = 28, CV_R68_FPSR = 29, CV_R68_FPIAR = 30, 
        //reserved          31
        CV_R68_FP0 = 32, CV_R68_FP1 = 33, CV_R68_FP2 = 34, CV_R68_FP3 = 35,
            CV_R68_FP4 = 36, CV_R68_FP5 = 37, CV_R68_FP6 = 38, CV_R68_FP7 = 39, 
        //reserved      40-50
        CV_R68_PSR = 51, CV_R68_PCSR = 52, CV_R68_VAL = 53, CV_R68_CRP = 54,
            CV_R68_SRP = 55, CV_R68_DRP = 56, CV_R68_TC = 57, CV_R68_AC = 58,
            CV_R68_SCC = 59, CV_R68_CAL = 60, CV_R68_TT0 = 61, CV_R68_TT1 = 62, 
        //reserved      63
        CV_R68_BAD0 = 64, CV_R68_BAD1 = 65, CV_R68_BAD2 = 66, CV_R68_BAD3 = 67,
            CV_R68_BAD4 = 68, CV_R68_BAD5 = 69, CV_R68_BAD6 = 70, CV_R68_BAD7 =
            71, CV_R68_BAC0 = 72, CV_R68_BAC1 = 73, CV_R68_BAC2 = 74,
            CV_R68_BAC3 = 75, CV_R68_BAC4 = 76, CV_R68_BAC5 = 77, CV_R68_BAC6 =
            78, CV_R68_BAC7 = 79, 

        // Register set for the MIPS 4000

        CV_M4_NOREG = CV_REG_NONE, 

        CV_M4_IntZERO = 10,  /* CPU REGISTER */
        CV_M4_IntAT = 11, CV_M4_IntV0 = 12, CV_M4_IntV1 = 13, CV_M4_IntA0 = 14,
            CV_M4_IntA1 = 15, CV_M4_IntA2 = 16, CV_M4_IntA3 = 17, CV_M4_IntT0 =
            18, CV_M4_IntT1 = 19, CV_M4_IntT2 = 20, CV_M4_IntT3 = 21,
            CV_M4_IntT4 = 22, CV_M4_IntT5 = 23, CV_M4_IntT6 = 24, CV_M4_IntT7 =
            25, CV_M4_IntS0 = 26, CV_M4_IntS1 = 27, CV_M4_IntS2 = 28,
            CV_M4_IntS3 = 29, CV_M4_IntS4 = 30, CV_M4_IntS5 = 31, CV_M4_IntS6 =
            32, CV_M4_IntS7 = 33, CV_M4_IntT8 = 34, CV_M4_IntT9 = 35,
            CV_M4_IntKT0 = 36, CV_M4_IntKT1 = 37, CV_M4_IntGP = 38, CV_M4_IntSP
            = 39, CV_M4_IntS8 = 40, CV_M4_IntRA = 41, CV_M4_IntLO = 42,
            CV_M4_IntHI = 43, 

        CV_M4_Fir = 50, CV_M4_Psr = 51, 

        CV_M4_FltF0 = 60,  /* Floating point registers */
        CV_M4_FltF1 = 61, CV_M4_FltF2 = 62, CV_M4_FltF3 = 63, CV_M4_FltF4 = 64,
            CV_M4_FltF5 = 65, CV_M4_FltF6 = 66, CV_M4_FltF7 = 67, CV_M4_FltF8 =
            68, CV_M4_FltF9 = 69, CV_M4_FltF10 = 70, CV_M4_FltF11 = 71,
            CV_M4_FltF12 = 72, CV_M4_FltF13 = 73, CV_M4_FltF14 = 74,
            CV_M4_FltF15 = 75, CV_M4_FltF16 = 76, CV_M4_FltF17 = 77,
            CV_M4_FltF18 = 78, CV_M4_FltF19 = 79, CV_M4_FltF20 = 80,
            CV_M4_FltF21 = 81, CV_M4_FltF22 = 82, CV_M4_FltF23 = 83,
            CV_M4_FltF24 = 84, CV_M4_FltF25 = 85, CV_M4_FltF26 = 86,
            CV_M4_FltF27 = 87, CV_M4_FltF28 = 88, CV_M4_FltF29 = 89,
            CV_M4_FltF30 = 90, CV_M4_FltF31 = 91, CV_M4_FltFsr = 92, 


        // Register set for the ALPHA AXP

        CV_ALPHA_NOREG = CV_REG_NONE, 

        CV_ALPHA_FltF0 = 10,  /* Floating point registers */
        CV_ALPHA_FltF1 = 11, CV_ALPHA_FltF2 = 12, CV_ALPHA_FltF3 = 13,
            CV_ALPHA_FltF4 = 14, CV_ALPHA_FltF5 = 15, CV_ALPHA_FltF6 = 16,
            CV_ALPHA_FltF7 = 17, CV_ALPHA_FltF8 = 18, CV_ALPHA_FltF9 = 19,
            CV_ALPHA_FltF10 = 20, CV_ALPHA_FltF11 = 21, CV_ALPHA_FltF12 = 22,
            CV_ALPHA_FltF13 = 23, CV_ALPHA_FltF14 = 24, CV_ALPHA_FltF15 = 25,
            CV_ALPHA_FltF16 = 26, CV_ALPHA_FltF17 = 27, CV_ALPHA_FltF18 = 28,
            CV_ALPHA_FltF19 = 29, CV_ALPHA_FltF20 = 30, CV_ALPHA_FltF21 = 31,
            CV_ALPHA_FltF22 = 32, CV_ALPHA_FltF23 = 33, CV_ALPHA_FltF24 = 34,
            CV_ALPHA_FltF25 = 35, CV_ALPHA_FltF26 = 36, CV_ALPHA_FltF27 = 37,
            CV_ALPHA_FltF28 = 38, CV_ALPHA_FltF29 = 39, CV_ALPHA_FltF30 = 40,
            CV_ALPHA_FltF31 = 41, 

        CV_ALPHA_IntV0 = 42,  // Integer registers
        CV_ALPHA_IntT0 = 43, CV_ALPHA_IntT1 = 44, CV_ALPHA_IntT2 = 45,
            CV_ALPHA_IntT3 = 46, CV_ALPHA_IntT4 = 47, CV_ALPHA_IntT5 = 48,
            CV_ALPHA_IntT6 = 49, CV_ALPHA_IntT7 = 50, CV_ALPHA_IntS0 = 51,
            CV_ALPHA_IntS1 = 52, CV_ALPHA_IntS2 = 53, CV_ALPHA_IntS3 = 54,
            CV_ALPHA_IntS4 = 55, CV_ALPHA_IntS5 = 56, CV_ALPHA_IntFP = 57,
            CV_ALPHA_IntA0 = 58, CV_ALPHA_IntA1 = 59, CV_ALPHA_IntA2 = 60,
            CV_ALPHA_IntA3 = 61, CV_ALPHA_IntA4 = 62, CV_ALPHA_IntA5 = 63,
            CV_ALPHA_IntT8 = 64, CV_ALPHA_IntT9 = 65, CV_ALPHA_IntT10 = 66,
            CV_ALPHA_IntT11 = 67, CV_ALPHA_IntRA = 68, CV_ALPHA_IntT12 = 69,
            CV_ALPHA_IntAT = 70, CV_ALPHA_IntGP = 71, CV_ALPHA_IntSP = 72,
            CV_ALPHA_IntZERO = 73, 


        CV_ALPHA_Fpcr = 74,  //  Control registers
        CV_ALPHA_Fir = 75, CV_ALPHA_Psr = 76, CV_ALPHA_FltFsr = 77,
            CV_ALPHA_SoftFpcr = 78,  //  Control registers

        // Register Set for Motorola/IBM PowerPC

        /*
         ** PowerPC General Registers ( User Level )
         */
        CV_PPC_GPR0 = 1, CV_PPC_GPR1 = 2, CV_PPC_GPR2 = 3, CV_PPC_GPR3 = 4,
            CV_PPC_GPR4 = 5, CV_PPC_GPR5 = 6, CV_PPC_GPR6 = 7, CV_PPC_GPR7 = 8,
            CV_PPC_GPR8 = 9, CV_PPC_GPR9 = 10, CV_PPC_GPR10 = 11, CV_PPC_GPR11 
            = 12, CV_PPC_GPR12 = 13, CV_PPC_GPR13 = 14, CV_PPC_GPR14 = 15,
            CV_PPC_GPR15 = 16, CV_PPC_GPR16 = 17, CV_PPC_GPR17 = 18,
            CV_PPC_GPR18 = 19, CV_PPC_GPR19 = 20, CV_PPC_GPR20 = 21,
            CV_PPC_GPR21 = 22, CV_PPC_GPR22 = 23, CV_PPC_GPR23 = 24,
            CV_PPC_GPR24 = 25, CV_PPC_GPR25 = 26, CV_PPC_GPR26 = 27,
            CV_PPC_GPR27 = 28, CV_PPC_GPR28 = 29, CV_PPC_GPR29 = 30,
            CV_PPC_GPR30 = 31, CV_PPC_GPR31 = 32, 

        /*
         ** PowerPC Condition Register ( User Level )
         */
        CV_PPC_CR = 33, CV_PPC_CR0 = 34, CV_PPC_CR1 = 35, CV_PPC_CR2 = 36,
            CV_PPC_CR3 = 37, CV_PPC_CR4 = 38, CV_PPC_CR5 = 39, CV_PPC_CR6 = 40,
            CV_PPC_CR7 = 41, 

        /*
         ** PowerPC Floating Point Registers ( User Level )
         */
        CV_PPC_FPR0 = 42, CV_PPC_FPR1 = 43, CV_PPC_FPR2 = 44, CV_PPC_FPR3 = 45,
            CV_PPC_FPR4 = 46, CV_PPC_FPR5 = 47, CV_PPC_FPR6 = 48, CV_PPC_FPR7 =
            49, CV_PPC_FPR8 = 50, CV_PPC_FPR9 = 51, CV_PPC_FPR10 = 52,
            CV_PPC_FPR11 = 53, CV_PPC_FPR12 = 54, CV_PPC_FPR13 = 55,
            CV_PPC_FPR14 = 56, CV_PPC_FPR15 = 57, CV_PPC_FPR16 = 58,
            CV_PPC_FPR17 = 59, CV_PPC_FPR18 = 60, CV_PPC_FPR19 = 61,
            CV_PPC_FPR20 = 62, CV_PPC_FPR21 = 63, CV_PPC_FPR22 = 64,
            CV_PPC_FPR23 = 65, CV_PPC_FPR24 = 66, CV_PPC_FPR25 = 67,
            CV_PPC_FPR26 = 68, CV_PPC_FPR27 = 69, CV_PPC_FPR28 = 70,
            CV_PPC_FPR29 = 71, CV_PPC_FPR30 = 72, CV_PPC_FPR31 = 73, 

        /*
         ** PowerPC Floating Point Status and Control Register ( User Level )
         */
        CV_PPC_FPSCR = 74, 

        /*
         ** PowerPC Machine State Register ( Supervisor Level )
         */
        CV_PPC_MSR = 75, 

        /*
         ** PowerPC Segment Registers ( Supervisor Level )
         */
        CV_PPC_SR0 = 76, CV_PPC_SR1 = 77, CV_PPC_SR2 = 78, CV_PPC_SR3 = 79,
            CV_PPC_SR4 = 80, CV_PPC_SR5 = 81, CV_PPC_SR6 = 82, CV_PPC_SR7 = 83,
            CV_PPC_SR8 = 84, CV_PPC_SR9 = 85, CV_PPC_SR10 = 86, CV_PPC_SR11 =
            87, CV_PPC_SR12 = 88, CV_PPC_SR13 = 89, CV_PPC_SR14 = 90,
            CV_PPC_SR15 = 91, 

        /*
         ** For all of the special purpose registers add 100 to the SPR# that the
         ** Motorola/IBM documentation gives with the exception of any imaginary
         ** registers.
         */

        /*
         ** PowerPC Special Purpose Registers ( User Level )
         */
        CV_PPC_PC = 99,  // PC (imaginary register)

        CV_PPC_MQ = 100,  // MPC601
        CV_PPC_XER = 101, CV_PPC_RTCU = 104,  // MPC601
        CV_PPC_RTCL = 105,  // MPC601
        CV_PPC_LR = 108, CV_PPC_CTR = 109, 

        /*
         ** PowerPC Special Purpose Registers ( Supervisor Level )
         */
        CV_PPC_DSISR = 118, CV_PPC_DAR = 119, CV_PPC_DEC = 122, CV_PPC_SDR1 =
            125, CV_PPC_SRR0 = 126, CV_PPC_SRR1 = 127, CV_PPC_SPRG0 = 372,
            CV_PPC_SPRG1 = 373, CV_PPC_SPRG2 = 374, CV_PPC_SPRG3 = 375,
            CV_PPC_ASR = 280,  // 64-bit implementations only
        CV_PPC_EAR = 382, CV_PPC_PVR = 287, CV_PPC_BAT0U = 628, CV_PPC_BAT0L =
            629, CV_PPC_BAT1U = 630, CV_PPC_BAT1L = 631, CV_PPC_BAT2U = 632,
            CV_PPC_BAT2L = 633, CV_PPC_BAT3U = 634, CV_PPC_BAT3L = 635,
            CV_PPC_DBAT0U = 636, CV_PPC_DBAT0L = 637, CV_PPC_DBAT1U = 638,
            CV_PPC_DBAT1L = 639, CV_PPC_DBAT2U = 640, CV_PPC_DBAT2L = 641,
            CV_PPC_DBAT3U = 642, CV_PPC_DBAT3L = 643, 

        /*
         ** PowerPC Special Purpose Registers Implementation Dependent ( Supervisor Level )
         */

        /*
         ** Doesn't appear that IBM/Motorola has finished defining these.
         */

        CV_PPC_PMR0 = 1044,  // MPC620,
        CV_PPC_PMR1 = 1045,  // MPC620,
        CV_PPC_PMR2 = 1046,  // MPC620,
        CV_PPC_PMR3 = 1047,  // MPC620,
        CV_PPC_PMR4 = 1048,  // MPC620,
        CV_PPC_PMR5 = 1049,  // MPC620,
        CV_PPC_PMR6 = 1050,  // MPC620,
        CV_PPC_PMR7 = 1051,  // MPC620,
        CV_PPC_PMR8 = 1052,  // MPC620,
        CV_PPC_PMR9 = 1053,  // MPC620,
        CV_PPC_PMR10 = 1054,  // MPC620,
        CV_PPC_PMR11 = 1055,  // MPC620,
        CV_PPC_PMR12 = 1056,  // MPC620,
        CV_PPC_PMR13 = 1057,  // MPC620,
        CV_PPC_PMR14 = 1058,  // MPC620,
        CV_PPC_PMR15 = 1059,  // MPC620,

        CV_PPC_DMISS = 1076,  // MPC603
        CV_PPC_DCMP = 1077,  // MPC603
        CV_PPC_HASH1 = 1078,  // MPC603
        CV_PPC_HASH2 = 1079,  // MPC603
        CV_PPC_IMISS = 1080,  // MPC603
        CV_PPC_ICMP = 1081,  // MPC603
        CV_PPC_RPA = 1082,  // MPC603

        CV_PPC_HID0 = 1108,  // MPC601, MPC603, MPC620
        CV_PPC_HID1 = 1109,  // MPC601
        CV_PPC_HID2 = 1110,  // MPC601, MPC603, MPC620 ( IABR )
        CV_PPC_HID3 = 1111,  // Not Defined
        CV_PPC_HID4 = 1112,  // Not Defined
        CV_PPC_HID5 = 1113,  // MPC601, MPC604, MPC620 ( DABR )
        CV_PPC_HID6 = 1114,  // Not Defined
        CV_PPC_HID7 = 1115,  // Not Defined
        CV_PPC_HID8 = 1116,  // MPC620 ( BUSCSR )
        CV_PPC_HID9 = 1117,  // MPC620 ( L2CSR )
        CV_PPC_HID10 = 1118,  // Not Defined
        CV_PPC_HID11 = 1119,  // Not Defined
        CV_PPC_HID12 = 1120,  // Not Defined
        CV_PPC_HID13 = 1121,  // MPC604 ( HCR )
        CV_PPC_HID14 = 1122,  // Not Defined
        CV_PPC_HID15 = 1123  // MPC601, MPC604, MPC620 ( PIR )


    } CV_HREG_e;

	#include <poppack.h>

#endif /* CV_INFO_INCLUDED */
